Solve started: 2024-04-11 18:09:10 Transient 3d with Motion MN Simcenter MAGNET Solver 64-bit Version 2312.0.0.647 (2023/10/12 15:54 R2023-B) (DI2BELVN0466WNB) 123.4 MB Problem 1 being solved 0:00:00 123.4 MB Before generating the initial mesh 0:00:00 124.6 MB After loading the cached initial mesh 0:00:00 124.6 MB Before getting the problem definition 0:00:00 124.6 MB Before generating coil fields 0:00:00 124.6 MB Partitioning conductor mesh 0:00:01 133.9 MB Partitioning non-conductor mesh 0:00:01 292.7 MB Non-conductor mesh has 917,601 tets (out of 965,266 tets total), also 1,851,131 faces and 1,098,262 edges. Before classifying coils 0:00:02 310.6 MB Coil field - After tree generation (164,738 of 1,098,262 edges) 0:00:02 315.4 MB Coil field - After cotree completion (848,000 completed) 0:00:03 346.8 MB 0:00:03 346.8 MB After classifying coils 0:00:03 428.9 MB Conductor status: volume-label conductor-id status path 1 1 vector Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) 2 2 vector Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) 3 3 vector Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) 4 4 vector Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) 5 5 vector Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) 6 6 vector Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) 10 7 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) 11 8 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) 12 9 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) 13 10 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) 14 11 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) 15 12 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) 16 13 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) 17 14 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) 18 15 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) 19 16 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) 20 17 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) 21 18 scalar Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Coils in conductors: conductor-id path 7 Coil 1 - Top 8 Coil 1 - Top(2) 9 Coil 1 - Top(3) 10 Coil 1 - Top(4) 11 Coil 1 - Top(5) 12 Coil 1 - Top(6) 13 Coil 1 - Bottom 14 Coil 1 - Bottom(5) 15 Coil 1 - Bottom(6) 16 Coil 1 - Bottom(2) 17 Coil 1 - Bottom(3) 18 Coil 1 - Bottom(4) After counting 12 coil fields 0:00:03 127.6 MB After getting the problem definition 0:00:03 127.6 MB Number of CG solving threads: 4 Number of assembly solving threads: 16 Number of general solving threads: 16 0:00:03 127.6 MB Circuit branches: 24 Before remeshing 0:00:03 127.9 MB After remeshing 0:00:25 322 MB Solving circuit equations. 0:00:25 348.8 MB CG tolerance = 0.01% Newton tolerance = 0.1% Before generating coil fields 0:00:29 430.9 MB Partitioning conductor mesh 0:00:30 442 MB Partitioning non-conductor mesh 0:00:30 660 MB Non-conductor mesh has 1,250,073 tets (out of 1,297,738 tets total), also 2,516,075 faces and 1,489,913 edges. Before classifying coils 0:00:30 684.9 MB Coil field - After tree generation (223,917 of 1,489,913 edges) 0:00:31 691.7 MB Coil field - After cotree completion (976,909 completed) 0:00:32 733.3 MB 0:00:32 733.3 MB After classifying coils 0:00:32 863.5 MB Coil field generation pass avoiding ferromagnetic and remesh 0:00:32 863.5 MB Processing non-conductor 0:00:32 735.2 MB Coil field - After tree generation (223,917 of 1,489,913 edges) 0:00:33 741.8 MB Coil field - After cotree completion (1,181,861 completed) 0:00:33 741.8 MB 0:00:33 741.8 MB Before processing conductors 0:00:33 844.7 MB After processing conductors 0:00:33 849.4 MB Generated coil field (7,458 nonzero edges) for Coil 1 - Top Generated coil field (6,452 nonzero edges) for Coil 1 - Top(2) Generated coil field (39,713 nonzero edges) for Coil 1 - Top(3) Generated coil field (8,483 nonzero edges) for Coil 1 - Top(4) Generated coil field (6,514 nonzero edges) for Coil 1 - Top(5) Generated coil field (7,276 nonzero edges) for Coil 1 - Top(6) Generated coil field (6,649 nonzero edges) for Coil 1 - Bottom Generated coil field (6,134 nonzero edges) for Coil 1 - Bottom(5) Generated coil field (6,570 nonzero edges) for Coil 1 - Bottom(6) Generated coil field (37,281 nonzero edges) for Coil 1 - Bottom(2) Generated coil field (6,233 nonzero edges) for Coil 1 - Bottom(3) Generated coil field (6,029 nonzero edges) for Coil 1 - Bottom(4) 0:00:37 863.1 MB Found 0 implicit coils. Before loading coil fields. 0:00:37 449 MB Loaded coil fields (5 MB). 0:00:37 455.1 MB Starting sparsity pattern generation. 0:00:37 428.8 MB No. of Non Zeros = 78 0:00:39 428.8 MB Allocating 0.000312 MB Allocating 0.000624 MB Allocating 0.000624 MB 0:00:41 428.8 MB Before matrix assembly 0:00:41 428.8 MB After matrix assembly 0:00:44 430 MB Solved circuit equations. Solving finite element problem. No. of tetrahedra = 1,297,738 No. of nodes = 225,747 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:00:44 410.5 MB No. of Edges = 1,525,550 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,269,135 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,504,948 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,349 No. of Binary Fnodes(pairs) = 0 CG tolerance = 0.01% Newton tolerance = 0.1% Starting sparsity pattern generation. 0:00:56 522.2 MB No. of Non Zeros = 2,082,716 0:00:58 527 MB Allocating 8.330864 MB Allocating 16.661728 MB Allocating 16.661728 MB 0:01:01 564.8 MB Solving for time step 0 seconds. Matrix reordering found. 0:01:01 565.3 MB Matrix partitioned into sizes of 30,795 33,092 75,222 68,955 38,285 0 0 0 Non zeros in each block: 320,387 208,485 523,294 638,544 320,506 0 0 0 Matrix reordering applied. 0:01:01 567.4 MB Before matrix assembly 0:01:01 569.3 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 29.1089 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.21758 After matrix assembly 0:01:04 570.1 MB Starting Cholesky decomposition. 0:01:04 587 MB Starting Conjugate Gradient. 0:01:04 587 MB CG tolerance 0.01% Newton 1:86 CG steps; change 100%, target 0.1% alpha = 1 RHS error = 1 Step error = 1 0:01:05 568.4 MB Finished the step. 0:01:05 568.4 MB Before matrix assembly 0:01:05 568.4 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89217 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.36721 After matrix assembly 0:01:07 570.1 MB Starting Cholesky decomposition. 0:01:07 587 MB Starting Conjugate Gradient. 0:01:07 587 MB CG tolerance 0.01% Newton 2:199 CG steps; change 0.506261%, target 0.1% alpha = 1 RHS error = 0.0106873 Step error = 0.00506261 0:01:09 568.6 MB Finished the step. 0:01:09 568.6 MB Before matrix assembly 0:01:09 568.6 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88278 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.47912 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.85923 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.57891 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.83107 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.64529 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.82299 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.66097 After matrix assembly 0:01:18 570.2 MB Starting Cholesky decomposition. 0:01:18 587.2 MB Starting Conjugate Gradient. 0:01:19 587.3 MB CG tolerance 0.01% Newton 3:240 CG steps; change 1.46937%, target 0.1% alpha = 7.36651 RHS error = 0.0153551 Step error = 0.0146937 0:01:20 569 MB Finished the step. 0:01:20 569 MB Before matrix assembly 0:01:20 569 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.8072 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73123 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.8151 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.69757 After matrix assembly 0:01:25 570.1 MB Starting Cholesky decomposition. 0:01:25 587.1 MB Starting Conjugate Gradient. 0:01:25 587.1 MB CG tolerance 0.01% Newton 4:226 CG steps; change 0.870903%, target 0.1% alpha = 0.5 RHS error = 0.00939794 Step error = 0.00870903 0:01:27 568.7 MB Finished the step. 0:01:27 568.7 MB Before matrix assembly 0:01:27 568.7 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.79444 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7337 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.79308 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7359 After matrix assembly 0:01:31 570.1 MB Starting Cholesky decomposition. 0:01:31 587.1 MB Starting Conjugate Gradient. 0:01:32 587.1 MB CG tolerance 0.01% Newton 5:224 CG steps; change 0.0178585%, target 0.1% alpha = 1.06577 RHS error = 0.00187455 Step error = 0.000178585 0:01:33 568.7 MB Finished the step. 0:01:33 568.7 MB Global values for time = 0 seconds Instantaneous magnetic energy in the model = -8.78887 joules Instantaneous magnetic co - energy in the model = 10.5669 joules Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = 0.0153041 webers Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = 0.0153268 webers Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = 0.0154012 webers Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = 0.0153745 webers Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = 0.0151927 webers Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = 0.0152107 webers Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.280995 webers Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.280996 webers Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.281044 webers Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.280877 webers Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.281206 webers Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.281121 webers Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.243772,-0.191966,-85.8953 N. Torque about the origin on body 1 is -0.000191831,-0.00541287,0.0419963 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.38888,-0.0833997,-70.8776 N. Torque about the origin on body 2 is -0.0198469,0.105199,-0.00474522 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.89814,1.2729,152.441 N. Torque about the origin on body 3 is -0.0248103,0.085339,0.00161645 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.39975,2.39928,0.333078 N. Torque about the origin on body 4 is -0.0766249,-0.0486555,-0.0241105 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.85667,-11.2624,-14.393 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.204501,-0.098823,-0.0185247 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -7.53536,10.3987,-13.9409 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -0.186922,-0.165629,-0.0370593 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.75451,-11.892,-14.3346 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.232893,0.13386,0.0171481 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 8.29985,13.6576,-14.0763 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.298614,0.194116,0.0173847 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 12.0623,-0.635664,-14.0911 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0173773,0.196055,0.052855 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -13.633,-0.770272,-14.1803 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0298666,-0.270455,-0.0377619 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.39804,-0.0780594,-72.7304 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0186949,0.102587,-0.00454551 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 2.93789,1.22846,150.387 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0210396,0.0881432,0.000887586 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.39975,2.39928,0.333078 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0766249,-0.0486555,-0.0241105 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.10314,-0.00316405,0.368353 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000429327,-0.00334589,-0.000136835 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0493851,0.0980374,0.365497 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00205688,-0.00202749,0.000366911 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.052414,0.0975841,0.397534 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00381292,0.00259735,-0.000192343 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.122807,0.0103596,0.412072 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.000878521,0.00438093,-0.000430311 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.061914,-0.114756,0.400553 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00256593,0.00227744,0.000199944 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0667794,-0.108674,0.449152 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00544069,-0.00254693,0.000190532 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.877463,-0.0136407,0.269681 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 4.60987e-05,0.00877068,-0.000655657 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.441841,-0.756743,0.228938 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00974205,-0.00559554,-0.000326846 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.422926,-0.740189,0.309973 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00548043,0.00342333,-0.000234848 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.399881,0.795761,0.223707 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.010553,0.0048692,0.00248282 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.430615,0.775886,0.264964 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00839931,-0.00483464,-0.000744788 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.870773,-0.00381536,0.279028 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000150684,-0.00827121,7.18282e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0604877,-0.00161992,0.214331 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000117325,0.00165034,-9.40724e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0307005,0.0525552,0.214903 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.0013774,0.000844349,-3.8861e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0313668,0.0528465,0.214779 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.001418,-0.00088163,2.68903e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0622653,0.000256634,0.215461 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -4.04629e-05,-0.00169986,-8.36417e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0317942,-0.0530758,0.216265 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00137529,-0.000886692,-6.90143e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0320163,-0.0536193,0.213761 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00151495,0.000972201,5.07838e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.860213,-0.000934837,0.227589 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.31743e-05,0.00969516,-5.19445e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.428926,-0.741815,0.228935 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00823708,-0.00480102,-4.69487e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.426281,-0.740055,0.228843 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00823817,0.00472553,-7.09136e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.428001,0.743175,0.227658 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.00835316,0.00481491,4.24461e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.429922,0.74364,0.227103 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00837372,-0.00483767,2.74866e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.856397,6.74373e-05,0.226265 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.59884e-06,-0.00967201,-2.61108e-05 N.m. Finished calculating global parameters. 0:01:36 570.8 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.84117925212 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.838898314915 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.838878282084 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.839375157644 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.842120293436 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.841777481988 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.840910149522 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.841128955958 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.839856886786 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.840919546747 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.840583677 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.840911224344 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:01:37 575.7 MB After remeshing 0:01:56 555.2 MB Solving finite element problem. No. of tetrahedra = 1,288,341 No. of nodes = 224,085 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:01:56 444.2 MB No. of Edges = 1,514,491 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,259,738 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,493,889 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 244,687 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:02:01 540.1 MB No. of Non Zeros = 2,069,995 0:02:04 543.2 MB Allocating 8.279980 MB Allocating 16.559960 MB Allocating 16.559960 MB 0:02:07 585.2 MB Solving for time = 1 Matrix reordering found. 0:02:07 589.5 MB Matrix partitioned into sizes of 30,587 32,543 74,796 67,967 38,794 0 0 0 Non zeros in each block: 319,155 204,572 518,463 632,980 323,314 0 0 0 Matrix reordering applied. 0:02:07 591.4 MB Before matrix assembly 0:02:07 593.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.81558 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73623 After matrix assembly 0:02:12 605.9 MB Starting Cholesky decomposition. 0:02:12 622.7 MB Starting Conjugate Gradient. 0:02:12 622.7 MB CG tolerance 0.01% Newton 1:41 CG steps; change 25.0254%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.250254 0:02:13 603.9 MB Finished the step. 0:02:13 603.9 MB Before matrix assembly 0:02:13 603.9 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.79821 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7326 After matrix assembly 0:02:15 605.8 MB Starting Cholesky decomposition. 0:02:15 622.7 MB Starting Conjugate Gradient. 0:02:15 622.7 MB CG tolerance 0.01% Newton 2:250 CG steps; change 0.543912%, target 0.1% alpha = 1 RHS error = 0.00651132 Step error = 0.00543912 0:02:17 604.3 MB Finished the step. 0:02:17 604.3 MB Before matrix assembly 0:02:17 604.3 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.80904 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71427 After matrix assembly 0:02:20 605.8 MB Starting Cholesky decomposition. 0:02:20 622.7 MB Starting Conjugate Gradient. 0:02:20 622.7 MB CG tolerance 0.01% Newton 3:156 CG steps; change 0.0210264%, target 0.1% alpha = 1 RHS error = 0.001409 Step error = 0.000210264 0:02:21 604.3 MB Finished the step. 0:02:21 604.3 MB Global values for time = 1 seconds Instantaneous magnetic energy in the model = -8.77964 joules Instantaneous magnetic co - energy in the model = 10.4808 joules Instantaneous Ohmic loss = 5.69063e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 5.69998e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 5.70202e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 5.70207e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 5.70665e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 5.70856e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = 0.00742827 webers Instantaneous terminal voltage = 3.8333 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = 0.00745412 webers Instantaneous terminal voltage = 3.83103 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = 0.00752411 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = 0.00749546 webers Instantaneous terminal voltage = 3.8315 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = 0.00732427 webers Instantaneous terminal voltage = 3.83425 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = 0.00734406 webers Instantaneous terminal voltage = 3.83391 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.276057 webers Instantaneous terminal voltage = 3.83597 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.276051 webers Instantaneous terminal voltage = 3.83618 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.276096 webers Instantaneous terminal voltage = 3.83491 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.275939 webers Instantaneous terminal voltage = 3.83598 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.276245 webers Instantaneous terminal voltage = 3.83562 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.276168 webers Instantaneous terminal voltage = 3.83596 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.235877,-0.0699026,-84.9464 N. Torque about the origin on body 1 is -0.00299811,-0.00706127,0.0449061 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.39617,-0.108925,-70.7813 N. Torque about the origin on body 2 is -0.0172774,0.102758,-0.00432215 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.91447,1.23436,154.489 N. Torque about the origin on body 3 is -0.0249075,0.0863185,0.00113934 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.38754,2.37898,-0.153096 N. Torque about the origin on body 4 is -0.0779522,-0.05198,-0.0230437 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.43839,-10.5323,-14.8148 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.132353,-0.055908,-0.0182591 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -7.12234,9.69691,-14.3693 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -0.117915,-0.125962,-0.0369084 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.30871,-11.1452,-14.7331 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.162706,0.0925895,0.017318 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.9007,12.9563,-14.5404 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.232731,0.157085,0.0175315 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 11.2214,-0.655874,-14.4759 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0191904,0.115572,0.052951 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.806,-0.765564,-14.5924 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0299879,-0.189623,-0.0376978 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.40684,-0.0997721,-72.7212 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0165243,0.100064,-0.00426591 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 2.96059,1.1892,152.54 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0209275,0.0895972,0.000393154 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.38754,2.37898,-0.153096 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0779522,-0.05198,-0.0230437 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.104233,-0.00382666,0.379792 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.00046601,-0.00386809,-0.000170715 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0503117,0.0987406,0.378734 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00260719,-0.0023254,0.000345167 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0549121,0.0974132,0.415864 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00467293,0.00287676,-7.83843e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.123927,0.00879602,0.426766 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.000743539,0.00507412,-0.00035147 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0621745,-0.115877,0.413671 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00307658,0.00261706,0.00021734 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0671442,-0.109749,0.465751 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00611598,-0.00295792,0.000178823 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.911879,-0.0161022,0.247751 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 7.12442e-05,0.0104556,-0.000780318 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.45806,-0.785432,0.208115 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0111306,-0.00638606,-0.000313692 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.439316,-0.773316,0.302131 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00638575,0.00385066,-0.000336313 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.408797,0.827495,0.204701 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0119159,0.00549355,0.00290514 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.446548,0.806399,0.250922 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00951485,-0.00547329,-0.000819147 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.904843,-0.000941224,0.255616 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000208396,-0.0100378,-7.4877e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0615092,-0.00161607,0.214408 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000117086,0.00171626,-9.39736e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0311956,0.0534223,0.214981 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00143316,0.0008761,-3.68732e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0318984,0.0537608,0.214815 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0014787,-0.000916925,2.69421e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.063295,0.000252238,0.215532 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -4.01774e-05,-0.00176649,-8.32254e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0322911,-0.0539535,0.216346 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00143176,-0.000918498,-6.87011e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0325176,-0.0544745,0.213862 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00156893,0.00100394,5.10031e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.886361,-0.000936206,0.227842 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.34837e-05,0.0100996,-5.19891e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.442037,-0.764605,0.229268 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00858558,-0.00500168,-4.57604e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.439741,-0.763333,0.229161 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00859655,0.0049323,-6.9522e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.441245,0.766235,0.227876 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.00871243,0.00502123,4.6191e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.442944,0.766248,0.22738 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00872054,-0.00503735,2.63378e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.883221,0.000128956,0.226501 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -2.85904e-06,-0.0100871,-2.91033e-05 N.m. Finished calculating global parameters for time step 1 seconds. 0:02:24 582.7 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833303409703 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.83102560113 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.83100121962 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.83149608078 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.83425189257 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.83391079629 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.835971994713 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.8361843136 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.83490842724 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.835982060608 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.835622322226 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.835958020036 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:02:24 581.9 MB After remeshing 0:02:43 563.7 MB Solving finite element problem. No. of tetrahedra = 1,300,555 No. of nodes = 226,349 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:02:43 456.1 MB No. of Edges = 1,528,969 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,271,952 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,508,367 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,951 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:02:49 557.3 MB No. of Non Zeros = 2,086,737 0:02:52 559 MB Allocating 8.346948 MB Allocating 16.693896 MB Allocating 16.693896 MB 0:02:54 602.7 MB Solving for time = 2 Matrix reordering found. 0:02:54 648.3 MB Matrix partitioned into sizes of 30,870 33,202 75,410 69,672 37,797 0 0 0 Non zeros in each block: 320,877 209,208 524,936 643,469 316,738 0 0 0 Matrix reordering applied. 0:02:54 649.2 MB Before matrix assembly 0:02:54 651.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.83381 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71432 After matrix assembly 0:02:57 659.6 MB Starting Cholesky decomposition. 0:02:57 676.6 MB Starting Conjugate Gradient. 0:02:57 676.6 MB CG tolerance 0.01% Newton 1:43 CG steps; change 25.0834%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.250834 0:02:57 657.7 MB Finished the step. 0:02:57 657.7 MB Before matrix assembly 0:02:57 657.7 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.83724 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71347 After matrix assembly 0:03:00 659.6 MB Starting Cholesky decomposition. 0:03:00 676.6 MB Starting Conjugate Gradient. 0:03:00 676.6 MB CG tolerance 0.01% Newton 2:240 CG steps; change 0.518748%, target 0.1% alpha = 1 RHS error = 0.0072909 Step error = 0.00518748 0:03:02 658.1 MB Finished the step. 0:03:02 658.1 MB Before matrix assembly 0:03:02 658.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.84779 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72655 After matrix assembly 0:03:04 659.6 MB Starting Cholesky decomposition. 0:03:04 676.6 MB Starting Conjugate Gradient. 0:03:04 676.6 MB CG tolerance 0.01% Newton 3:156 CG steps; change 0.0228528%, target 0.1% alpha = 1 RHS error = 0.00146571 Step error = 0.000228528 0:03:05 658.1 MB Finished the step. 0:03:05 658.1 MB Global values for time = 2 seconds Instantaneous magnetic energy in the model = -8.76954 joules Instantaneous magnetic co - energy in the model = 10.3923 joules Instantaneous Ohmic loss = 5.97171e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 5.97785e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 5.98106e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 5.98555e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 5.99677e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 5.99041e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.000422965 webers Instantaneous terminal voltage = 3.83333 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.000392946 webers Instantaneous terminal voltage = 3.83105 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.000323964 webers Instantaneous terminal voltage = 3.83103 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.000360543 webers Instantaneous terminal voltage = 3.83152 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.000524512 webers Instantaneous terminal voltage = 3.83427 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.000497554 webers Instantaneous terminal voltage = 3.83394 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.270848 webers Instantaneous terminal voltage = 3.8357 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.27084 webers Instantaneous terminal voltage = 3.83592 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.27088 webers Instantaneous terminal voltage = 3.83464 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.270735 webers Instantaneous terminal voltage = 3.83572 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.271014 webers Instantaneous terminal voltage = 3.83535 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.270948 webers Instantaneous terminal voltage = 3.83569 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.359757,-0.0530027,-88.3077 N. Torque about the origin on body 1 is -0.00186677,-0.017504,0.0464077 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.38843,-0.109275,-70.7132 N. Torque about the origin on body 2 is -0.0169377,0.103575,-0.00414365 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.91988,1.27124,156.129 N. Torque about the origin on body 3 is -0.0244925,0.0870666,-0.000161801 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.47598,2.30527,0.102257 N. Torque about the origin on body 4 is -0.0764936,-0.055303,-0.0223727 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.29109,-10.2978,-15.1729 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.0921198,-0.0309998,-0.0181783 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -7.00972,9.48241,-14.6895 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -0.077041,-0.105106,-0.037109 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.15592,-10.9053,-15.0813 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.121194,0.0682103,0.0181263 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.76769,12.79,-14.8903 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.195337,0.133813,0.0164873 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.9477,-0.660608,-14.8839 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0200946,0.0620319,0.0531851 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.5296,-0.749921,-14.945 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0290554,-0.14247,-0.0371849 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.40059,-0.0965042,-72.7269 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0165674,0.100846,-0.00424923 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 2.97355,1.22319,154.345 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0202786,0.0908945,-0.000996962 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.47598,2.30527,0.102257 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0764936,-0.055303,-0.0223727 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.105222,-0.00425622,0.389629 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.00048755,-0.00431404,-0.000192578 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0511001,0.0994146,0.390355 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00308747,-0.00258774,0.000328813 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0572414,0.0972293,0.431418 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00540768,0.00309707,2.86959e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.124976,0.00711428,0.439035 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.000599352,0.00564659,-0.000266365 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0624006,-0.116958,0.424992 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00351035,0.00290979,0.000235013 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0674954,-0.110753,0.479846 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00668424,-0.00330343,0.000168715 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.944263,-0.0181907,0.214098 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 9.38863e-05,0.0127016,-0.000885071 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.472292,-0.813153,0.178274 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0129007,-0.00737489,-0.000236583 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.454344,-0.804994,0.285322 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00766384,0.00447067,-0.000461738 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.415026,0.858631,0.176568 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0136777,0.00629135,0.00343162 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.461572,0.834737,0.228532 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0109615,-0.00631755,-0.000874455 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.93694,0.00408639,0.219643 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000310934,-0.0124074,-0.000330623 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.062398,-0.00161025,0.214545 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000116632,0.00177065,-9.37865e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0316326,0.0541848,0.215124 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00147953,0.000902682,-3.54767e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0323603,0.0545501,0.214934 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00152788,-0.000945814,2.70806e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.064196,0.000245837,0.215653 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.96782e-05,-0.00182242,-8.19697e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0327375,-0.05473,0.216477 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00147951,-0.000945964,-6.86556e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0329606,-0.055224,0.214015 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0016139,0.00103073,5.13162e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.910308,-0.000941273,0.228001 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.38193e-05,0.0104744,-5.22549e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.454085,-0.785561,0.229502 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00890975,-0.00518816,-4.43075e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.452128,-0.784769,0.229383 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00892976,0.00512442,-6.85627e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.453433,0.787456,0.227993 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0090474,0.00521357,4.96697e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.454864,0.786939,0.227541 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00904225,-0.0052226,2.55205e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.907866,0.000190357,0.226678 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -4.08754e-06,-0.0104711,-3.20248e-05 N.m. Finished calculating global parameters for time step 2 seconds. 0:03:08 656.4 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833328013131 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831051244984 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831030205508 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831519159344 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834271512978 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.83393586866 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.835701316453 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.835918331999 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.834641398032 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.83571516677 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.835352975279 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.83569066097 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:03:08 608.9 MB After remeshing 0:03:28 594.6 MB Solving finite element problem. No. of tetrahedra = 1,288,423 No. of nodes = 224,108 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:03:28 485.9 MB No. of Edges = 1,514,596 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,259,820 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,493,994 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 244,710 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:03:34 580.6 MB No. of Non Zeros = 2,070,123 0:03:36 587.3 MB Allocating 8.280492 MB Allocating 16.560984 MB Allocating 16.560984 MB 0:03:39 626.9 MB Solving for time = 3 Matrix reordering found. 0:03:39 642.6 MB Matrix partitioned into sizes of 30,590 32,550 74,717 67,932 38,921 0 0 0 Non zeros in each block: 319,179 204,603 517,771 632,705 324,351 0 0 0 Matrix reordering applied. 0:03:39 643.5 MB Before matrix assembly 0:03:39 646.3 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.84378 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7264 After matrix assembly 0:03:42 658.2 MB Starting Cholesky decomposition. 0:03:42 675.1 MB Starting Conjugate Gradient. 0:03:42 675.1 MB CG tolerance 0.01% Newton 1:40 CG steps; change 25.1514%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.251514 0:03:42 656.4 MB Finished the step. 0:03:42 656.4 MB Before matrix assembly 0:03:42 656.4 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.83822 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72568 After matrix assembly 0:03:44 658.3 MB Starting Cholesky decomposition. 0:03:44 675.2 MB Starting Conjugate Gradient. 0:03:45 675.2 MB CG tolerance 0.01% Newton 2:182 CG steps; change 0.478096%, target 0.1% alpha = 1 RHS error = 0.00694771 Step error = 0.00478096 0:03:46 656.9 MB Finished the step. 0:03:46 656.9 MB Before matrix assembly 0:03:46 656.9 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.84794 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73708 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.84735 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73641 After matrix assembly 0:03:50 658.4 MB Starting Cholesky decomposition. 0:03:50 675.2 MB Starting Conjugate Gradient. 0:03:51 675.2 MB CG tolerance 0.01% Newton 3:212 CG steps; change 0.00584945%, target 0.1% alpha = 0.939466 RHS error = 0.00105623 Step error = 5.84945e-05 0:03:52 656.9 MB Finished the step. 0:03:52 656.9 MB Global values for time = 3 seconds Instantaneous magnetic energy in the model = -8.75967 joules Instantaneous magnetic co - energy in the model = 10.3022 joules Instantaneous Ohmic loss = 6.22501e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.22783e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.23893e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.23898e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.23573e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.24128e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.00826275 webers Instantaneous terminal voltage = 3.83334 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.00823427 webers Instantaneous terminal voltage = 3.83106 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.00816741 webers Instantaneous terminal voltage = 3.83103 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.00819778 webers Instantaneous terminal voltage = 3.83154 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.00836868 webers Instantaneous terminal voltage = 3.83428 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.00833962 webers Instantaneous terminal voltage = 3.83394 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.265332 webers Instantaneous terminal voltage = 3.83539 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.26532 webers Instantaneous terminal voltage = 3.83561 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.265358 webers Instantaneous terminal voltage = 3.83433 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.265225 webers Instantaneous terminal voltage = 3.83541 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.265469 webers Instantaneous terminal voltage = 3.83504 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.265419 webers Instantaneous terminal voltage = 3.83538 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.285217,0.0689001,-92.9718 N. Torque about the origin on body 1 is -0.00271338,-0.0139759,0.0399087 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.38089,-0.105295,-70.3854 N. Torque about the origin on body 2 is -0.0171931,0.105088,-0.00384706 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.90164,1.37959,157.483 N. Torque about the origin on body 3 is -0.0256929,0.0868234,-0.00112589 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.49198,2.23522,0.746871 N. Torque about the origin on body 4 is -0.0754959,-0.0534304,-0.021977 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.13399,-10.0215,-15.3457 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.0626446,-0.0130082,-0.0179234 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.87121,9.26101,-14.909 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -0.0465863,-0.0894921,-0.0375292 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.00413,-10.6175,-15.3239 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0903386,0.0512312,0.0179792 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.6323,12.5217,-15.0692 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.167311,0.118845,0.015921 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.6173,-0.670867,-15.1017 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0213406,0.0256771,0.0534317 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.2457,-0.712636,-15.1583 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0281716,-0.108192,-0.036419 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.39446,-0.0890889,-72.4561 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0172022,0.10238,-0.00413708 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 2.96372,1.32504,155.943 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0212511,0.091232,-0.00220456 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.49198,2.23522,0.746871 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0754959,-0.0534304,-0.021977 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.10613,-0.00441636,0.397386 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000491337,-0.00465763,-0.000200564 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0517625,0.100072,0.399793 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00347184,-0.00279841,0.000317565 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0594194,0.0970427,0.443576 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00598928,0.00324019,0.00012952 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.125945,0.00528635,0.448183 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.000442757,0.00606285,-0.000173565 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0625869,-0.117998,0.433841 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00383781,0.00313764,0.000253252 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.067838,-0.111682,0.490547 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00710692,-0.00355926,0.000160605 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.973559,-0.0193586,0.16496 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.000106932,0.0156858,-0.000942188 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.483318,-0.83939,0.136929 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0151578,-0.0086097,-5.38245e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.46785,-0.833918,0.255511 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00947319,0.00538624,-0.000585949 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.417853,0.888389,0.136499 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0159563,0.00731842,0.0040726 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.475701,0.85974,0.195381 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0128283,-0.00743494,-0.00087901 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.965977,0.0122928,0.167365 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000479736,-0.0155542,-0.000747982 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0632037,-0.00160063,0.214696 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000115825,0.00181913,-9.34182e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0320414,0.0548816,0.215262 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00152188,0.000927734,-3.73172e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0327835,0.0552658,0.215062 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00157198,-0.000972112,2.73715e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.064989,0.000245136,0.2158 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.95692e-05,-0.0018703,-8.24403e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0331656,-0.0554494,0.216605 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00152377,-0.000972615,-6.9069e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0333812,-0.0559303,0.21415 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00165702,0.00105671,5.17482e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.931474,-0.00094671,0.228051 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.41283e-05,0.0108102,-5.26154e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.464789,-0.804203,0.229635 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00920177,-0.00535588,-4.24786e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.463114,-0.8038,0.229488 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00922902,0.00529678,-6.82315e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.464238,0.80628,0.227991 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.00934903,0.00538664,5.30561e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.465408,0.805248,0.227606 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00933052,-0.00538856,2.47893e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.92971,0.000249959,0.226746 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -5.30197e-06,-0.0108158,-3.48642e-05 N.m. Finished calculating global parameters for time step 3 seconds. 0:03:55 653.4 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.83333946778 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831056992264 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831034840701 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831537924842 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834276124432 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833935415477 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.835394434832 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.835608497575 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.834334512157 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.835409744265 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.835038674068 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.835382484828 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:03:55 651.2 MB After remeshing 0:04:15 595.1 MB Solving finite element problem. No. of tetrahedra = 1,298,308 No. of nodes = 225,805 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:04:15 488.5 MB No. of Edges = 1,526,178 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,269,705 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,505,576 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,407 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:04:21 587.6 MB No. of Non Zeros = 2,083,402 0:04:24 591.8 MB Allocating 8.333608 MB Allocating 16.667216 MB Allocating 16.667216 MB 0:04:26 634.4 MB Solving for time = 4 Matrix reordering found. 0:04:26 649.8 MB Matrix partitioned into sizes of 30,802 33,100 75,124 68,700 38,681 0 0 0 Non zeros in each block: 320,417 208,548 522,216 637,161 323,547 0 0 0 Matrix reordering applied. 0:04:27 649.8 MB Before matrix assembly 0:04:27 651.7 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.8612 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73671 After matrix assembly 0:04:29 659.4 MB Starting Cholesky decomposition. 0:04:29 676.4 MB Starting Conjugate Gradient. 0:04:29 676.4 MB CG tolerance 0.01% Newton 1:43 CG steps; change 25.1821%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.251821 0:04:30 658 MB Finished the step. 0:04:30 658 MB Before matrix assembly 0:04:30 658 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.84212 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73605 After matrix assembly 0:04:32 659.9 MB Starting Cholesky decomposition. 0:04:32 676.9 MB Starting Conjugate Gradient. 0:04:32 676.9 MB CG tolerance 0.01% Newton 2:196 CG steps; change 0.428299%, target 0.1% alpha = 1 RHS error = 0.00554145 Step error = 0.00428299 0:04:34 658.4 MB Finished the step. 0:04:34 658.4 MB Before matrix assembly 0:04:34 658.4 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.85099 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74515 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.85027 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74443 After matrix assembly 0:04:39 659.9 MB Starting Cholesky decomposition. 0:04:39 676.9 MB Starting Conjugate Gradient. 0:04:39 676.9 MB CG tolerance 0.01% Newton 3:214 CG steps; change 0.00393862%, target 0.1% alpha = 0.919655 RHS error = 0.000962783 Step error = 3.93862e-05 0:04:40 658.4 MB Finished the step. 0:04:40 658.4 MB Global values for time = 4 seconds Instantaneous magnetic energy in the model = -8.7516 joules Instantaneous magnetic co - energy in the model = 10.2118 joules Instantaneous Ohmic loss = 6.46182e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.47262e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.46747e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.46898e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.47177e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.47601e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0161069 webers Instantaneous terminal voltage = 3.83334 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0160836 webers Instantaneous terminal voltage = 3.83105 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0160208 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0160424 webers Instantaneous terminal voltage = 3.83153 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0162194 webers Instantaneous terminal voltage = 3.83427 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0161902 webers Instantaneous terminal voltage = 3.83393 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.259457 webers Instantaneous terminal voltage = 3.83503 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.25945 webers Instantaneous terminal voltage = 3.83526 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.259483 webers Instantaneous terminal voltage = 3.83398 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.259359 webers Instantaneous terminal voltage = 3.83505 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.259571 webers Instantaneous terminal voltage = 3.83469 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.259538 webers Instantaneous terminal voltage = 3.83503 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.310828,0.00461081,-94.5896 N. Torque about the origin on body 1 is 0.00225107,-0.0151009,0.0366132 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.37282,-0.113755,-70.615 N. Torque about the origin on body 2 is -0.0160768,0.103442,-0.00407024 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.89438,1.38328,158.778 N. Torque about the origin on body 3 is -0.0274319,0.08658,-0.00130433 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.53192,2.15516,0.216219 N. Torque about the origin on body 4 is -0.0738074,-0.0551783,-0.0217952 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.97518,-9.81556,-15.2507 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.0494069,-0.00334372,-0.0186092 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.71736,9.04735,-14.8297 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -0.0333543,-0.0815174,-0.037356 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.85881,-10.4114,-15.2174 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0800401,0.0435729,0.0181188 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.49109,12.2997,-14.985 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.157044,0.113393,0.0160982 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.3588,-0.649529,-15.0395 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0219216,0.0111617,0.0531233 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -11.9679,-0.703584,-15.0561 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0283422,-0.0937052,-0.0356822 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.38772,-0.0943956,-72.7236 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0164579,0.100814,-0.0045721 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 2.96482,1.31704,157.568 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0227516,0.0915482,-0.00288546 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.53192,2.15516,0.216219 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0738074,-0.0551783,-0.0217952 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.106952,-0.00426183,0.402748 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000473828,-0.0048826,-0.000192319 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0522987,0.100737,0.406509 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00373441,-0.00294332,0.000312081 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0614451,0.0968564,0.451967 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.0064002,0.00329692,0.000223922 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.126842,0.00329772,0.453719 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.000273096,0.00629708,-7.26686e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0626948,-0.11898,0.439742 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00403814,0.00329105,0.00027364 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0681661,-0.112532,0.497374 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.0073623,-0.00371429,0.000154166 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.998487,-0.0191822,0.0990671 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.000103591,0.0194554,-0.000930577 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.490155,-0.863095,0.0831591 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0179298,-0.0101018,0.000252813 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.480208,-0.858244,0.210914 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0118642,0.0066575,-0.00064676 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.416605,0.915859,0.0831938 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0188001,0.00859873,0.00483353 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.488712,0.880042,0.150486 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.015137,-0.00884993,-0.000807782 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.990672,0.0241824,0.0975987 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000727761,-0.0195205,-0.00135291 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0639336,-0.00159725,0.214838 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000115489,0.00186341,-9.32289e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.032427,0.0555324,0.215391 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00156202,0.00095175,-4.05349e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0331724,0.0559245,0.215173 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00161332,-0.00099668,2.76254e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0657314,0.000240872,0.215928 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.91948e-05,-0.00191612,-8.14597e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0335497,-0.0561017,0.216729 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00156411,-0.000996556,-6.93277e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0337731,-0.0565989,0.21426 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00169908,0.00108152,5.19872e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.94928,-0.000954297,0.227989 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.44128e-05,0.0110977,-5.31196e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.473813,-0.819935,0.229643 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00945263,-0.00549974,-4.05102e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.472382,-0.819879,0.229483 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00948552,0.00544433,-6.8533e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.473362,0.822197,0.227891 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.00960838,0.00553525,5.64478e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.474254,0.82061,0.227546 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00957707,-0.00553053,2.42225e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.948132,0.000298275,0.22671 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -6.26852e-06,-0.011111,-3.72554e-05 N.m. Finished calculating global parameters for time step 4 seconds. 0:04:43 654.8 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833335076679 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831048950904 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831024905313 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831530494925 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834269596591 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833926917773 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.835034907072 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.835259078913 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.833981912452 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.835053014979 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.834685366725 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.835030071361 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:04:43 653 MB After remeshing 0:05:05 595.3 MB Solving finite element problem. No. of tetrahedra = 1,291,116 No. of nodes = 224,645 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:05:05 485.1 MB No. of Edges = 1,517,826 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,262,513 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,497,224 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 245,247 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:05:11 583.7 MB No. of Non Zeros = 2,073,890 0:05:13 589.3 MB Allocating 8.295560 MB Allocating 16.591120 MB Allocating 16.591120 MB 0:05:17 629 MB Solving for time = 5 Matrix reordering found. 0:05:17 644.7 MB Matrix partitioned into sizes of 30,657 32,778 74,733 68,142 38,937 0 0 0 Non zeros in each block: 319,546 206,303 518,298 633,717 324,524 0 0 0 Matrix reordering applied. 0:05:17 644.7 MB Before matrix assembly 0:05:17 646.6 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.86143 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74459 After matrix assembly 0:05:22 654.3 MB Starting Cholesky decomposition. 0:05:22 671.2 MB Starting Conjugate Gradient. 0:05:22 671.2 MB CG tolerance 0.01% Newton 1:40 CG steps; change 25.2082%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.252082 0:05:22 652.4 MB Finished the step. 0:05:22 652.4 MB Before matrix assembly 0:05:22 652.4 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.8408 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74403 After matrix assembly 0:05:25 654.3 MB Starting Cholesky decomposition. 0:05:25 671.2 MB Starting Conjugate Gradient. 0:05:25 671.2 MB CG tolerance 0.01% Newton 2:193 CG steps; change 0.373081%, target 0.1% alpha = 1 RHS error = 0.00656036 Step error = 0.00373081 0:05:26 652.7 MB Finished the step. 0:05:26 652.7 MB Before matrix assembly 0:05:26 652.7 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.84838 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75053 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.84761 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74988 After matrix assembly 0:05:31 654.3 MB Starting Cholesky decomposition. 0:05:31 671.2 MB Starting Conjugate Gradient. 0:05:31 671.2 MB CG tolerance 0.01% Newton 3:214 CG steps; change 0.0054305%, target 0.1% alpha = 0.898487 RHS error = 0.00114238 Step error = 5.4305e-05 0:05:33 652.8 MB Finished the step. 0:05:33 652.8 MB Global values for time = 5 seconds Instantaneous magnetic energy in the model = -8.74493 joules Instantaneous magnetic co - energy in the model = 10.1204 joules Instantaneous Ohmic loss = 6.67817e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.68764e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.68349e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.68617e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.69154e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.69381e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0239601 webers Instantaneous terminal voltage = 3.83333 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.023937 webers Instantaneous terminal voltage = 3.83104 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0238855 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0238999 webers Instantaneous terminal voltage = 3.83152 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0240769 webers Instantaneous terminal voltage = 3.83426 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0240521 webers Instantaneous terminal voltage = 3.83392 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.253202 webers Instantaneous terminal voltage = 3.83466 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.2532 webers Instantaneous terminal voltage = 3.83488 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.253227 webers Instantaneous terminal voltage = 3.8336 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.253112 webers Instantaneous terminal voltage = 3.83467 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.253298 webers Instantaneous terminal voltage = 3.83431 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.25328 webers Instantaneous terminal voltage = 3.83465 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.327943,0.078791,-92.6931 N. Torque about the origin on body 1 is -0.00416466,-0.0107267,0.0417553 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.41193,-0.149565,-70.7006 N. Torque about the origin on body 2 is -0.0128378,0.104685,-0.00381302 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.95793,1.32427,159.733 N. Torque about the origin on body 3 is -0.0267288,0.0868312,-0.000620553 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.58838,2.13394,-0.320706 N. Torque about the origin on body 4 is -0.074059,-0.0610495,-0.02115 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.03989,-9.97097,-15.5019 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.0386947,0.00378757,-0.0186939 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.79032,9.11442,-15.0913 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -0.0199348,-0.0757594,-0.0381547 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.91793,-10.4911,-15.4829 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0662819,0.0356479,0.0181781 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.52485,12.4047,-15.2872 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.146094,0.105917,0.0156876 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.4363,-0.618105,-15.2623 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0214596,-0.00344921,0.0528063 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.098,-0.703674,-15.3369 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0286706,-0.0792924,-0.0350177 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.42808,-0.127473,-72.8284 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0135647,0.102176,-0.00455691 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.03582,1.24052,158.932 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0217627,0.0923168,-0.00303996 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.58838,2.13394,-0.320706 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.074059,-0.0610495,-0.02115 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.107713,-0.00375955,0.405629 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000432605,-0.00498257,-0.000166375 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0526616,0.101422,0.41039 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00386855,-0.00302391,0.000314685 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.063312,0.096688,0.456668 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00664259,0.00326952,0.000311146 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.127657,0.00120346,0.455801 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -9.55384e-05,0.00635777,3.33906e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0626928,-0.119915,0.442723 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00411106,0.00337364,0.000297895 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0684901,-0.113287,0.500465 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00745746,-0.00377119,0.000150262 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.01808,-0.0174945,0.0185726 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 8.13895e-05,0.0238873,-0.000842676 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.4926,-0.883387,0.0182018 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0211507,-0.0118201,0.000670784 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.492092,-0.876359,0.152699 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0147572,0.00827593,-0.000574545 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.411096,0.940098,0.0176915 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0221483,0.0101084,0.00569875 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.50041,0.89493,0.0946644 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0178411,-0.0105396,-0.000651713 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.01007,0.0393726,0.012471 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.00105054,-0.0241841,-0.00212601 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0646093,-0.00160061,0.214954 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000115713,0.00190564,-9.33035e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.032776,0.0561379,0.215491 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00160072,0.000974088,-4.0248e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0335324,0.0565476,0.215251 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00165413,-0.00102028,2.76232e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0664394,0.000228929,0.216014 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.82801e-05,-0.00196215,-7.7417e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.033893,-0.0567025,0.216826 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00160251,-0.0010185,-6.92172e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0341315,-0.0572209,0.214345 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00173953,0.00110485,5.20153e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.963329,-0.000955584,0.227815 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.45358e-05,0.01133,-5.3464e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.480958,-0.832409,0.229532 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00965632,-0.00561632,-3.85391e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.479724,-0.832619,0.229361 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00969316,0.00556382,-6.89652e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.480582,0.834817,0.227691 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.00981871,0.00565557,5.97023e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.481231,0.832723,0.227362 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0097767,-0.00564556,2.39055e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.962708,0.000335288,0.226561 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -6.99328e-06,-0.01135,-3.91686e-05 N.m. Finished calculating global parameters for time step 5 seconds. 0:05:35 651.1 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833326056595 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831044917417 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831013540818 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831517736255 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834262743799 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833915567756 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.834655073668 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.834878939716 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.833601143718 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.834673303266 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.83431112433 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.834653871346 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:05:36 649.7 MB After remeshing 0:05:57 707.6 MB Solving finite element problem. No. of tetrahedra = 1,295,518 No. of nodes = 225,344 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:05:57 604 MB No. of Edges = 1,522,927 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,266,915 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,502,325 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 245,946 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:06:03 691.4 MB No. of Non Zeros = 2,079,690 0:06:06 691.1 MB Allocating 8.318760 MB Allocating 16.637520 MB Allocating 16.637520 MB 0:06:10 730.8 MB Solving for time = 6 Matrix reordering found. 0:06:10 736.5 MB Matrix partitioned into sizes of 30,744 32,912 74,882 68,230 39,178 0 0 0 Non zeros in each block: 320,101 207,228 519,796 633,872 327,186 0 0 0 Matrix reordering applied. 0:06:10 736.5 MB Before matrix assembly 0:06:10 738.3 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.86453 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74988 After matrix assembly 0:06:12 741.1 MB Starting Cholesky decomposition. 0:06:12 758.1 MB Starting Conjugate Gradient. 0:06:13 758.1 MB CG tolerance 0.01% Newton 1:41 CG steps; change 25.1698%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.251698 0:06:13 739.2 MB Finished the step. 0:06:13 739.2 MB Before matrix assembly 0:06:13 739.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87766 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74934 After matrix assembly 0:06:16 741.1 MB Starting Cholesky decomposition. 0:06:16 758.1 MB Starting Conjugate Gradient. 0:06:16 758.1 MB CG tolerance 0.01% Newton 2:169 CG steps; change 0.320245%, target 0.1% alpha = 1 RHS error = 0.0081563 Step error = 0.00320245 0:06:17 739.6 MB Finished the step. 0:06:17 739.6 MB Before matrix assembly 0:06:17 739.6 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88417 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75325 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88339 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75272 After matrix assembly 0:06:21 741.1 MB Starting Cholesky decomposition. 0:06:21 758.1 MB Starting Conjugate Gradient. 0:06:21 758.1 MB CG tolerance 0.01% Newton 3:211 CG steps; change 0.00589449%, target 0.1% alpha = 0.879981 RHS error = 0.000830397 Step error = 5.89449e-05 0:06:23 739.6 MB Finished the step. 0:06:23 739.6 MB Global values for time = 6 seconds Instantaneous magnetic energy in the model = -8.73886 joules Instantaneous magnetic co - energy in the model = 10.0274 joules Instantaneous Ohmic loss = 6.87607e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.88156e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.87555e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.87663e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.87284e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.88664e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.031829 webers Instantaneous terminal voltage = 3.83331 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0318045 webers Instantaneous terminal voltage = 3.83103 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0317568 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0317665 webers Instantaneous terminal voltage = 3.83151 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0319487 webers Instantaneous terminal voltage = 3.83425 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0319277 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.246582 webers Instantaneous terminal voltage = 3.83429 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.246591 webers Instantaneous terminal voltage = 3.83452 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.246608 webers Instantaneous terminal voltage = 3.83324 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.246499 webers Instantaneous terminal voltage = 3.83431 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.246667 webers Instantaneous terminal voltage = 3.83395 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.246667 webers Instantaneous terminal voltage = 3.8343 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.451354,0.0787905,-91.654 N. Torque about the origin on body 1 is -0.00653825,-0.0187961,0.0414212 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.43001,-0.149567,-70.7841 N. Torque about the origin on body 2 is -0.0132615,0.107549,-0.00388207 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.03511,1.30704,160.436 N. Torque about the origin on body 3 is -0.0262985,0.0889454,-8.28698e-05 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.59923,2.16222,-0.111441 N. Torque about the origin on body 4 is -0.0767167,-0.0634073,-0.020972 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.09049,-10.0844,-15.9383 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.0245189,0.0154507,-0.0193849 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.88491,9.24561,-15.4833 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -0.0033284,-0.0697969,-0.0386657 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.96188,-10.5968,-15.8921 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0481684,0.0251113,0.0182894 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.58861,12.5338,-15.6617 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.133497,0.0986011,0.0162853 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.5564,-0.636959,-15.6732 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0230614,-0.024916,0.0532972 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.2292,-0.700438,-15.7388 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0299805,-0.0624444,-0.0346822 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.44733,-0.125293,-72.9119 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.014305,0.105181,-0.00489153 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.11844,1.20069,160.095 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.021007,0.09494,-0.00366221 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.59923,2.16222,-0.111441 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0767167,-0.0634073,-0.020972 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.108413,-0.00291204,0.405786 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000367387,-0.00494482,-0.000122875 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.052817,0.102161,0.411283 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00386454,-0.00303934,0.000327695 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0649958,0.0965346,0.457779 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00672092,0.00316188,0.000390188 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.128385,-0.000868891,0.454725 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 7.99209e-05,0.00625995,0.000138237 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0626101,-0.120809,0.442475 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00404247,0.00337523,0.000324781 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0688026,-0.11395,0.499866 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00739336,-0.00373192,0.000148454 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.03242,-0.0141648,-0.0702966 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 3.97854e-05,0.0286672,-0.000672162 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.491256,-0.900016,-0.0546557 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0246707,-0.013695,0.00116724 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.504011,-0.887916,0.0848986 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0179655,0.0101574,-0.000338138 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.402523,0.960472,-0.0558378 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.025803,0.0117716,0.00659944 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.510839,0.904698,0.0307735 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0208212,-0.012431,-0.000417569 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.02418,0.0567437,-0.082045 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.00142268,-0.0292432,-0.00301059 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0652498,-0.00160823,0.215028 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000116277,0.00194807,-9.35631e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0331047,0.0567151,0.215543 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00163995,0.000996392,-3.85331e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0338549,0.0571142,0.215314 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00169212,-0.00104189,2.74733e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.067106,0.000218618,0.216062 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.75098e-05,-0.00200767,-7.36653e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0342173,-0.0572712,0.216888 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.0016407,-0.00104028,-6.90806e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0344627,-0.0578022,0.214399 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00177901,0.0011273,5.19106e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.973762,-0.00095594,0.227567 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.46236e-05,0.0115077,-5.37731e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.486264,-0.841684,0.229329 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00981216,-0.00570536,-3.67764e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.485178,-0.842076,0.229154 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00985143,0.00565499,-6.92257e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.485949,0.84421,0.227434 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.00997916,0.00574725,6.24827e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.486429,0.841746,0.22711 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.00992983,-0.00573384,2.37756e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.973518,0.000359097,0.226321 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -7.41396e-06,-0.0115325,-4.05373e-05 N.m. Finished calculating global parameters for time step 6 seconds. 0:06:26 735.2 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833310350461 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831030819884 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831006981125 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831508516198 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.83424852338 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833901871633 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.834290114392 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.834519563195 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.833238141087 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.834305846065 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.833951865731 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.834298144382 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:06:26 732.3 MB After remeshing 0:06:47 731.3 MB Solving finite element problem. No. of tetrahedra = 1,299,742 No. of nodes = 226,097 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:06:47 629.7 MB No. of Edges = 1,527,904 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,271,139 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,507,302 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,699 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:06:53 715.9 MB No. of Non Zeros = 2,085,420 0:06:56 715.6 MB Allocating 8.341680 MB Allocating 16.683360 MB Allocating 16.683360 MB 0:06:58 755.5 MB Solving for time = 7 Matrix reordering found. 0:06:58 761.1 MB Matrix partitioned into sizes of 30,838 33,138 74,945 68,499 39,279 0 0 0 Non zeros in each block: 320,679 208,760 520,956 634,657 328,865 0 0 0 Matrix reordering applied. 0:06:59 761.1 MB Before matrix assembly 0:06:59 763 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.96421 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75265 After matrix assembly 0:07:01 765.8 MB Starting Cholesky decomposition. 0:07:01 782.8 MB Starting Conjugate Gradient. 0:07:01 782.8 MB CG tolerance 0.01% Newton 1:42 CG steps; change 25.171%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.25171 0:07:02 763.9 MB Finished the step. 0:07:02 763.9 MB Before matrix assembly 0:07:02 763.9 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87665 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75202 After matrix assembly 0:07:04 765.8 MB Starting Cholesky decomposition. 0:07:04 782.8 MB Starting Conjugate Gradient. 0:07:04 782.8 MB CG tolerance 0.01% Newton 2:173 CG steps; change 0.266474%, target 0.1% alpha = 1 RHS error = 0.00814367 Step error = 0.00266474 0:07:06 764.3 MB Finished the step. 0:07:06 764.3 MB Before matrix assembly 0:07:06 764.3 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88234 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75327 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88158 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75311 After matrix assembly 0:07:10 765.8 MB Starting Cholesky decomposition. 0:07:10 782.8 MB Starting Conjugate Gradient. 0:07:10 782.8 MB CG tolerance 0.01% Newton 3:162 CG steps; change 0.00655159%, target 0.1% alpha = 0.866233 RHS error = 0.000981399 Step error = 6.55159e-05 0:07:12 764.3 MB Finished the step. 0:07:12 764.3 MB Global values for time = 7 seconds Instantaneous magnetic energy in the model = -8.73376 joules Instantaneous magnetic co - energy in the model = 9.93349 joules Instantaneous Ohmic loss = 7.01072e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 7.00961e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 7.01438e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 7.00576e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 7.01611e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 7.01414e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0397058 webers Instantaneous terminal voltage = 3.8333 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0396816 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0396288 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0396383 webers Instantaneous terminal voltage = 3.8315 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0398263 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0398054 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.239654 webers Instantaneous terminal voltage = 3.83398 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.239663 webers Instantaneous terminal voltage = 3.8342 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.239677 webers Instantaneous terminal voltage = 3.83292 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.23957 webers Instantaneous terminal voltage = 3.83399 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.239718 webers Instantaneous terminal voltage = 3.83364 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.239735 webers Instantaneous terminal voltage = 3.83398 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.424752,0.0775612,-93.0324 N. Torque about the origin on body 1 is -0.00440861,-0.0234922,0.0389252 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.40864,-0.100368,-70.8775 N. Torque about the origin on body 2 is -0.0176894,0.105653,-0.00410791 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.00606,1.3434,160.897 N. Torque about the origin on body 3 is -0.0256325,0.0936214,8.27717e-05 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.57236,2.14729,0.618102 N. Torque about the origin on body 4 is -0.0787485,-0.0628472,-0.0206732 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.99898,-9.9323,-15.9734 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.0062313,0.025606,-0.0198308 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.83047,9.14053,-15.5801 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0148904,-0.0603198,-0.0386233 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.9298,-10.5092,-15.9882 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0329651,0.0174037,0.018023 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.48764,12.3642,-15.6764 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.118174,0.0912842,0.0163369 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.4215,-0.624146,-15.7466 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0234727,-0.0443594,0.0530212 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.1586,-0.68997,-15.7671 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0297411,-0.0483091,-0.0348295 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.42707,-0.0745255,-72.9881 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0190131,0.103438,-0.00539399 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.09165,1.21185,161.013 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0200129,0.100126,-0.00474119 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.57236,2.14729,0.618102 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0787485,-0.0628472,-0.0206732 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.109054,-0.00179943,0.403364 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000283481,-0.00477663,-6.58764e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0527828,0.102955,0.409473 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00373433,-0.00299631,0.000350314 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0665105,0.0963853,0.455646 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.0066513,0.00298162,0.000461782 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.129034,-0.00279385,0.450939 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000243266,0.00602599,0.000235531 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0624772,-0.121645,0.439311 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0038471,0.00330198,0.000352521 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0691065,-0.114533,0.496008 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00718814,-0.00360758,0.000148699 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.04221,-0.0093053,-0.156026 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -1.66911e-05,0.0332199,-0.000424722 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.487897,-0.912889,-0.127951 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0281532,-0.0155659,0.00165946 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.51561,-0.893998,0.0153985 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0211557,0.0121037,2.00501e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.393587,0.976221,-0.129252 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0293832,0.0134393,0.00739654 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.519311,0.910709,-0.0346228 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0238113,-0.0143371,-0.000174045 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.03384,0.0743268,-0.174755 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.0017918,-0.0341436,-0.00390652 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0658492,-0.00161534,0.215072 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0001168,0.00198952,-9.38003e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0334221,0.0572687,0.215562 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00167938,0.00101899,-3.76127e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0341478,0.057616,0.215369 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00172649,-0.00106201,2.75512e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0677189,0.000211626,0.216089 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.69707e-05,-0.00205099,-7.1115e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0345144,-0.0577844,0.216941 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00167588,-0.00106069,-6.90828e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0347702,-0.0583395,0.214432 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00181673,0.00114889,5.18637e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.98106,-0.000960503,0.227258 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.48272e-05,0.0116373,-5.42755e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.489999,-0.848208,0.229078 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.00992546,-0.00577023,-3.5652e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.488993,-0.848692,0.228886 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.00996651,0.00572123,-6.95122e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.489704,0.85079,0.227135 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0100955,0.00581375,6.45522e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.490103,0.848131,0.22684 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0100417,-0.00579819,2.35727e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.981114,0.000380522,0.226048 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -7.77617e-06,-0.011665,-4.17437e-05 N.m. Finished calculating global parameters for time step 7 seconds. 0:07:15 760 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833302519915 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831021215846 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831006278431 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831503324132 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834242686537 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833899769144 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833981859597 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.834201469376 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832924997133 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.83399078991 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.833635466548 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833978546616 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:07:15 757.1 MB After remeshing 0:07:36 754.4 MB Solving finite element problem. No. of tetrahedra = 1,290,494 No. of nodes = 224,531 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:07:36 652.3 MB No. of Edges = 1,517,090 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,261,891 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,496,488 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 245,133 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:07:43 738.5 MB No. of Non Zeros = 2,073,040 0:07:46 738.1 MB Allocating 8.292160 MB Allocating 16.584320 MB Allocating 16.584320 MB 0:07:48 777.7 MB Solving for time = 8 Matrix reordering found. 0:07:48 783.3 MB Matrix partitioned into sizes of 30,643 32,711 74,560 67,742 39,477 0 0 0 Non zeros in each block: 319,489 205,793 516,664 630,945 328,642 0 0 0 Matrix reordering applied. 0:07:49 783.3 MB Before matrix assembly 0:07:49 785.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.79738 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75279 After matrix assembly 0:07:51 787.1 MB Starting Cholesky decomposition. 0:07:51 804 MB Starting Conjugate Gradient. 0:07:51 804 MB CG tolerance 0.01% Newton 1:43 CG steps; change 25.0863%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.250863 0:07:52 785.2 MB Finished the step. 0:07:52 785.2 MB Before matrix assembly 0:07:52 785.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87448 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75191 After matrix assembly 0:07:54 787.1 MB Starting Cholesky decomposition. 0:07:54 804 MB Starting Conjugate Gradient. 0:07:54 804 MB CG tolerance 0.01% Newton 2:146 CG steps; change 0.222724%, target 0.1% alpha = 1 RHS error = 0.00807905 Step error = 0.00222724 0:07:55 785.6 MB Finished the step. 0:07:55 785.6 MB Before matrix assembly 0:07:55 785.6 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.8793 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75047 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87862 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75064 After matrix assembly 0:08:00 787.1 MB Starting Cholesky decomposition. 0:08:00 804 MB Starting Conjugate Gradient. 0:08:00 804 MB CG tolerance 0.01% Newton 3:192 CG steps; change 0.0069783%, target 0.1% alpha = 0.859956 RHS error = 0.00121854 Step error = 6.9783e-05 0:08:01 785.6 MB Finished the step. 0:08:01 785.6 MB Global values for time = 8 seconds Instantaneous magnetic energy in the model = -8.7298 joules Instantaneous magnetic co - energy in the model = 9.8392 joules Instantaneous Ohmic loss = 7.09407e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 7.0919e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 7.10028e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 7.09064e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 7.10905e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 7.10422e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0475932 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0475651 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0475043 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.047516 webers Instantaneous terminal voltage = 3.8315 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0477075 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0476897 webers Instantaneous terminal voltage = 3.83389 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.232482 webers Instantaneous terminal voltage = 3.83374 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.232497 webers Instantaneous terminal voltage = 3.83396 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.232505 webers Instantaneous terminal voltage = 3.83269 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.232401 webers Instantaneous terminal voltage = 3.83375 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.232529 webers Instantaneous terminal voltage = 3.83339 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.232553 webers Instantaneous terminal voltage = 3.83373 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.294522,0.0787284,-95.6751 N. Torque about the origin on body 1 is -0.00425108,-0.0163414,0.0330293 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.33704,-0.110152,-71.0691 N. Torque about the origin on body 2 is -0.0165877,0.102683,-0.00460098 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.88113,1.43847,161.335 N. Torque about the origin on body 3 is -0.0298106,0.0863506,-0.00011101 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.51233,2.11344,0.0212515 N. Torque about the origin on body 4 is -0.0814263,-0.0622221,-0.0204644 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.91062,-9.80065,-15.7246 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.00118069,0.0293662,-0.0200481 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.76833,9.05735,-15.3401 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0183628,-0.0590428,-0.0383283 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.90011,-10.4509,-15.7368 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0321213,0.0168265,0.018002 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.43985,12.3204,-15.4418 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.118385,0.0914349,0.0158918 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.3563,-0.633399,-15.4715 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0254368,-0.0473659,0.0530765 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.0209,-0.664041,-15.4934 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0284215,-0.0447039,-0.0338908 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.35657,-0.0832448,-73.1483 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0181681,0.100637,-0.00616828 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 2.96484,1.28276,161.827 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0238625,0.0933794,-0.00570921 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.51233,2.11344,0.0212515 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0814263,-0.0622221,-0.0204644 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.109652,-0.00052469,0.398911 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000188562,-0.00450525,-7.07566e-07 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0525579,0.103788,0.405595 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00350745,-0.00291101,0.000382149 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0679001,0.0962343,0.450744 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00645547,0.00273827,0.000528114 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.129626,-0.00451535,0.444967 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000390116,0.00568126,0.000322498 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0623017,-0.122441,0.433792 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00354908,0.00316776,0.000381151 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0694108,-0.115049,0.4893 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00685859,-0.00340885,0.000150918 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.04841,-0.00411817,-0.222273 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -6.95594e-05,0.0367228,-0.000160173 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.48549,-0.921296,-0.189362 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0310273,-0.0171562,0.00199289 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.525123,-0.896787,-0.0432769 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.023806,0.0137696,0.00036819 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.387493,0.986532,-0.190405 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0323195,0.0148678,0.007927 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.523335,0.91542,-0.0907196 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0263731,-0.0159173,-0.000100306 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04003,0.0895184,-0.249922 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.00208903,-0.0380969,-0.00468137 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0664242,-0.00160875,0.21509 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000116289,0.00203094,-9.35318e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0337125,0.0577735,0.215576 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00171596,0.00104004,-3.72456e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0344111,0.0580705,0.21542 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00175822,-0.00108044,2.75694e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0682701,0.000203235,0.216121 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.63331e-05,-0.00209031,-6.77801e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.034788,-0.0582496,0.216989 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00170825,-0.00107982,-6.92333e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0350589,-0.0588352,0.214458 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00185226,0.0011696,5.19759e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.98587,-0.000971331,0.226903 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.51731e-05,0.0117286,-5.50038e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.492474,-0.852512,0.228776 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0100047,-0.00581588,-3.53113e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.491503,-0.853052,0.228564 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0100473,0.00576759,-6.99571e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.492187,0.855133,0.226804 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0101767,0.00586034,6.57816e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.492552,0.8524,0.22654 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0101208,-0.00584355,2.32328e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.98616,0.000398668,0.225746 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -8.05107e-06,-0.0117581,-4.27124e-05 N.m. Finished calculating global parameters for time step 8 seconds. 0:08:04 781.2 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833291814102 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831014841334 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831002836088 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831497535814 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834239103313 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833893194449 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833738779827 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833963073233 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832685087808 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833750865764 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.83339475406 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833729609371 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:08:04 778.3 MB After remeshing 0:08:26 763.3 MB Solving finite element problem. No. of tetrahedra = 1,296,621 No. of nodes = 225,530 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:08:26 662.3 MB No. of Edges = 1,524,216 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,268,018 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,503,614 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,132 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:08:32 748.4 MB No. of Non Zeros = 2,081,165 0:08:34 747 MB Allocating 8.324660 MB Allocating 16.649320 MB Allocating 16.649320 MB 0:08:37 787.7 MB Solving for time = 9 Matrix reordering found. 0:08:37 792.3 MB Matrix partitioned into sizes of 30,768 32,989 74,710 68,125 39,540 0 0 0 Non zeros in each block: 320,247 207,742 518,459 633,031 330,174 0 0 0 Matrix reordering applied. 0:08:37 792.3 MB Before matrix assembly 0:08:37 794.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.81839 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.75022 After matrix assembly 0:08:40 796.8 MB Starting Cholesky decomposition. 0:08:40 813.8 MB Starting Conjugate Gradient. 0:08:40 813.8 MB CG tolerance 0.01% Newton 1:41 CG steps; change 25.0906%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.250906 0:08:40 794.9 MB Finished the step. 0:08:40 794.9 MB Before matrix assembly 0:08:40 794.9 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.8684 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7497 After matrix assembly 0:08:43 796.8 MB Starting Cholesky decomposition. 0:08:43 813.8 MB Starting Conjugate Gradient. 0:08:43 813.8 MB CG tolerance 0.01% Newton 2:152 CG steps; change 0.200577%, target 0.1% alpha = 1 RHS error = 0.00744348 Step error = 0.00200577 0:08:44 795.3 MB Finished the step. 0:08:44 795.3 MB Before matrix assembly 0:08:44 795.3 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87238 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74581 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87182 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74635 After matrix assembly 0:08:48 796.8 MB Starting Cholesky decomposition. 0:08:48 813.8 MB Starting Conjugate Gradient. 0:08:49 813.8 MB CG tolerance 0.01% Newton 3:195 CG steps; change 0.00801917%, target 0.1% alpha = 0.859987 RHS error = 0.000841951 Step error = 8.01917e-05 0:08:50 795.3 MB Finished the step. 0:08:50 795.3 MB Global values for time = 9 seconds Instantaneous magnetic energy in the model = -8.72843 joules Instantaneous magnetic co - energy in the model = 9.74644 joules Instantaneous Ohmic loss = 7.14301e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 7.15564e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 7.15299e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 7.14395e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 7.15205e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 7.16743e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0554786 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0554409 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.055378 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0553975 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0555872 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0555719 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.225135 webers Instantaneous terminal voltage = 3.83356 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.225155 webers Instantaneous terminal voltage = 3.83379 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.225151 webers Instantaneous terminal voltage = 3.8325 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.225056 webers Instantaneous terminal voltage = 3.83357 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.225167 webers Instantaneous terminal voltage = 3.83322 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.225203 webers Instantaneous terminal voltage = 3.83356 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.319363,0.139836,-96.2769 N. Torque about the origin on body 1 is -0.00330371,-0.0113499,0.0287648 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.30363,-0.0861364,-70.8862 N. Torque about the origin on body 2 is -0.0184575,0.0989559,-0.00452547 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.95217,1.47659,161.415 N. Torque about the origin on body 3 is -0.03271,0.0860248,-0.000103411 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.48067,2.09837,-0.547425 N. Torque about the origin on body 4 is -0.0844122,-0.0617829,-0.0202644 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.93953,-9.88128,-15.602 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is 0.00158043,0.0309259,-0.0204433 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.84761,9.16948,-15.2748 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0200334,-0.060155,-0.038823 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.97236,-10.5483,-15.6475 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0327675,0.0179867,0.0180537 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.4547,12.3411,-15.294 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.120277,0.0928758,0.0156558 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.4198,-0.630665,-15.336 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0264495,-0.0483014,0.0525285 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.1251,-0.653,-15.3874 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0283787,-0.0452784,-0.0339248 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.32441,-0.0584945,-72.9203 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.020286,0.097124,-0.00637772 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.03113,1.30235,162.149 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0264684,0.0936012,-0.00562882 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.48067,2.09837,-0.547425 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0844122,-0.0617829,-0.0202644 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.110217,0.000805886,0.392785 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 8.97186e-05,-0.0041481,6.74181e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0521667,0.104662,0.399691 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00318552,-0.0027833,0.000422191 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0692807,0.096046,0.4432 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00614155,0.00242706,0.00059517 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.130189,-0.00604439,0.436758 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000521236,0.00522132,0.000399557 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0620984,-0.12321,0.42591 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00314686,0.00297198,0.000410605 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.069705,-0.115519,0.479875 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00640924,-0.00313972,0.000154154 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05219,-0.00013039,-0.259527 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -9.9967e-05,0.0387031,4.4964e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.486121,-0.92523,-0.230528 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0329106,-0.0182736,0.00207038 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.530519,-0.898868,-0.0817869 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0255458,0.0148762,0.000553307 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.386057,0.991468,-0.230999 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0342275,0.01588,0.00811187 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.521978,0.920542,-0.129299 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0281691,-0.0169278,-0.000285223 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04373,0.100018,-0.297713 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.0022613,-0.0406123,-0.00521804 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0669682,-0.00160948,0.215105 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000116355,0.00207067,-9.352e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.033977,0.0582398,0.215593 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00175014,0.00105942,-3.56512e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0346617,0.0584999,0.215456 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.001789,-0.00109842,2.76446e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.068799,0.000193194,0.216145 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.55833e-05,-0.00212877,-6.36148e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0350467,-0.0586952,0.217026 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00174005,-0.00109833,-6.92471e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0353252,-0.0593004,0.21448 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00188618,0.00118902,5.19562e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.988933,-0.000980262,0.226541 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.54722e-05,0.0117919,-5.5659e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.494041,-0.855232,0.228439 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0100596,-0.00584754,-3.52157e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.493089,-0.855811,0.228228 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0101029,0.00579939,-7.04294e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.493748,0.857868,0.226441 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.010233,0.00589253,6.66615e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.494119,0.855136,0.226211 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0101762,-0.00587527,2.29685e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.989337,0.000405387,0.225401 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -8.15937e-06,-0.0118227,-4.31457e-05 N.m. Finished calculating global parameters for time step 9 seconds. 0:08:53 790.9 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833293814104 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831022476465 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831004510059 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831493570577 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834240587355 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833895273137 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833562571029 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833786643068 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832502617049 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833574500056 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.833221558451 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.83356120363 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:08:53 788 MB After remeshing 0:09:14 779.9 MB Solving finite element problem. No. of tetrahedra = 1,287,107 No. of nodes = 223,875 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:09:14 678 MB No. of Edges = 1,513,047 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,258,504 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,492,445 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 244,477 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:09:20 763.9 MB No. of Non Zeros = 2,068,341 0:09:23 763.5 MB Allocating 8.273364 MB Allocating 16.546728 MB Allocating 16.546728 MB 0:09:25 803.1 MB Solving for time = 10 Matrix reordering found. 0:09:26 808.7 MB Matrix partitioned into sizes of 30,561 32,411 74,178 67,197 40,130 0 0 0 Non zeros in each block: 319,029 203,634 512,918 627,702 333,554 0 0 0 Matrix reordering applied. 0:09:26 808.7 MB Before matrix assembly 0:09:26 810.5 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.81489 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7458 After matrix assembly 0:09:28 812.4 MB Starting Cholesky decomposition. 0:09:28 829.3 MB Starting Conjugate Gradient. 0:09:28 829.3 MB CG tolerance 0.01% Newton 1:42 CG steps; change 25.0523%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.250523 0:09:29 810.5 MB Finished the step. 0:09:29 810.5 MB Before matrix assembly 0:09:29 810.5 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87794 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74493 After matrix assembly 0:09:31 812.4 MB Starting Cholesky decomposition. 0:09:31 829.3 MB Starting Conjugate Gradient. 0:09:31 829.3 MB CG tolerance 0.01% Newton 2:129 CG steps; change 0.18675%, target 0.1% alpha = 1 RHS error = 0.00803529 Step error = 0.0018675 0:09:32 810.9 MB Finished the step. 0:09:32 810.9 MB Before matrix assembly 0:09:32 810.9 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88165 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7388 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88115 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73961 After matrix assembly 0:09:36 812.4 MB Starting Cholesky decomposition. 0:09:36 829.3 MB Starting Conjugate Gradient. 0:09:36 829.3 MB CG tolerance 0.01% Newton 3:186 CG steps; change 0.00720292%, target 0.1% alpha = 0.866052 RHS error = 0.00126361 Step error = 7.20292e-05 0:09:38 810.9 MB Finished the step. 0:09:38 810.9 MB Global values for time = 10 seconds Instantaneous magnetic energy in the model = -8.72722 joules Instantaneous magnetic co - energy in the model = 9.65315 joules Instantaneous Ohmic loss = 7.17475e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 7.19576e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 7.178e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 7.17081e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 7.1858e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 7.20642e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0633707 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0633259 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0632544 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0632841 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.063477 webers Instantaneous terminal voltage = 3.83423 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0634585 webers Instantaneous terminal voltage = 3.83389 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.217668 webers Instantaneous terminal voltage = 3.83344 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.217705 webers Instantaneous terminal voltage = 3.83368 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.217681 webers Instantaneous terminal voltage = 3.83239 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.2176 webers Instantaneous terminal voltage = 3.83346 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.217698 webers Instantaneous terminal voltage = 3.83311 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.217743 webers Instantaneous terminal voltage = 3.83345 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.354191,0.138322,-94.791 N. Torque about the origin on body 1 is -0.00559894,-0.0152867,0.0352956 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.30679,-0.0700812,-70.8721 N. Torque about the origin on body 2 is -0.0204303,0.100499,-0.0046526 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.032,1.45694,161.464 N. Torque about the origin on body 3 is -0.0300268,0.0924607,0.000419041 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.42304,2.08978,-0.0410536 N. Torque about the origin on body 4 is -0.0873761,-0.0581473,-0.020563 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.99211,-10.0028,-15.8295 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.00729831,0.0377848,-0.020125 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.94783,9.34008,-15.4895 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0288183,-0.0577293,-0.0396372 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.06567,-10.7154,-15.8758 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.0242242,0.0135721,0.0182982 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.50388,12.4856,-15.596 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.11282,0.0864606,0.0150364 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.579,-0.624067,-15.5824 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0262934,-0.0608215,0.0517416 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.2903,-0.636871,-15.661 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0289755,-0.03462,-0.0334028 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.32893,-0.0420102,-72.85 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0224888,0.0989336,-0.00676589 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.10605,1.27548,162.291 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.023783,0.100467,-0.00441352 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.42304,2.08978,-0.0410536 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0873761,-0.0581473,-0.020563 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.110757,0.00205638,0.38528 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -2.94427e-06,-0.00372065,0.000131542 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0517313,0.105546,0.391958 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00278028,-0.00261069,0.000464277 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0706255,0.0958553,0.433753 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00574063,0.00206904,0.000660737 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.13072,-0.00726964,0.426559 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000627865,0.00465972,0.000461074 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0619627,-0.123929,0.415863 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00265125,0.00271344,0.00043591 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0699659,-0.115965,0.468708 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00588304,-0.00282672,0.000156533 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05453,0.00237816,-0.267868 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000111703,0.0391791,0.000176708 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.489511,-0.925882,-0.250699 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0337912,-0.0188872,0.00193427 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.531023,-0.901931,-0.097459 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0262867,0.0153313,0.000499798 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.389776,0.991842,-0.249256 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0350393,0.0164376,0.00795033 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.517965,0.925525,-0.145277 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0289608,-0.0172854,-0.000595098 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04596,0.103066,-0.315148 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.00225672,-0.041553,-0.00537573 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0674965,-0.00161079,0.215109 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000116444,0.00211017,-9.35345e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0342383,0.0587036,0.215595 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00178488,0.00107898,-3.33377e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0349081,0.0589127,0.215491 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00181898,-0.00111632,2.79067e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0693038,0.000188158,0.216166 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.52261e-05,-0.00216587,-6.11949e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0353095,-0.0591508,0.217042 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00177362,-0.00111771,-6.92026e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0355735,-0.0597339,0.214502 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00191811,0.00120731,5.1919e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.990877,-0.000989734,0.226201 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.57324e-05,0.0118361,-5.62987e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.495002,-0.856904,0.228081 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0100978,-0.0058696,-3.5108e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.494081,-0.857547,0.227906 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0101412,0.00582124,-7.10123e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.494709,0.859567,0.226078 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.010272,0.00591468,6.75067e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.495107,0.856859,0.225871 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0102152,-0.0058977,2.27762e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.991309,0.000397259,0.22505 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -7.99248e-06,-0.0118676,-4.29362e-05 N.m. Finished calculating global parameters for time step 10 seconds. 0:09:40 806.5 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833287190382 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831013366966 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831001882137 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831488617317 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834230494176 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833890871213 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833443407418 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833678558942 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.83238762566 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833463888316 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.833114641319 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833451212408 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:09:41 803.7 MB After remeshing 0:10:01 789.3 MB Solving finite element problem. No. of tetrahedra = 1,297,012 No. of nodes = 225,599 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:10:01 688.4 MB No. of Edges = 1,524,676 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,268,409 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,504,074 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,201 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:10:07 775.3 MB No. of Non Zeros = 2,081,694 0:10:10 775.9 MB Allocating 8.326776 MB Allocating 16.653552 MB Allocating 16.653552 MB 0:10:12 815.7 MB Solving for time = 11 Matrix reordering found. 0:10:13 821.4 MB Matrix partitioned into sizes of 30,776 33,038 74,611 68,090 39,686 0 0 0 Non zeros in each block: 320,289 208,094 517,714 633,131 330,960 0 0 0 Matrix reordering applied. 0:10:13 821.4 MB Before matrix assembly 0:10:13 823.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.79853 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.739 After matrix assembly 0:10:15 825.1 MB Starting Cholesky decomposition. 0:10:15 842.1 MB Starting Conjugate Gradient. 0:10:15 842.1 MB CG tolerance 0.01% Newton 1:37 CG steps; change 24.9962%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.249962 0:10:16 823.2 MB Finished the step. 0:10:16 823.2 MB Before matrix assembly 0:10:16 823.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87373 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7382 After matrix assembly 0:10:18 825.1 MB Starting Cholesky decomposition. 0:10:18 842.1 MB Starting Conjugate Gradient. 0:10:18 842.1 MB CG tolerance 0.01% Newton 2:136 CG steps; change 0.17456%, target 0.1% alpha = 1 RHS error = 0.00783597 Step error = 0.0017456 0:10:19 823.6 MB Finished the step. 0:10:19 823.6 MB Before matrix assembly 0:10:19 823.6 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87738 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72902 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87693 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73011 After matrix assembly 0:10:23 825.1 MB Starting Cholesky decomposition. 0:10:23 842.1 MB Starting Conjugate Gradient. 0:10:24 842.1 MB CG tolerance 0.01% Newton 3:180 CG steps; change 0.00546314%, target 0.1% alpha = 0.875923 RHS error = 0.00113693 Step error = 5.46314e-05 0:10:25 823.6 MB Finished the step. 0:10:25 823.6 MB Global values for time = 11 seconds Instantaneous magnetic energy in the model = -8.72496 joules Instantaneous magnetic co - energy in the model = 9.55838 joules Instantaneous Ohmic loss = 7.17327e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 7.1742e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 7.16615e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 7.17252e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 7.18649e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 7.18255e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0712583 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0712084 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0711306 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0711698 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0713609 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0713385 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.210133 webers Instantaneous terminal voltage = 3.83337 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.210169 webers Instantaneous terminal voltage = 3.83359 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.210144 webers Instantaneous terminal voltage = 3.83232 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.210067 webers Instantaneous terminal voltage = 3.83339 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.210164 webers Instantaneous terminal voltage = 3.83305 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.210209 webers Instantaneous terminal voltage = 3.83338 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.292644,0.0994554,-92.9074 N. Torque about the origin on body 1 is -0.000891318,-0.016182,0.0332762 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.30447,-0.0826461,-70.8568 N. Torque about the origin on body 2 is -0.0205273,0.0984814,-0.00438815 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.03062,1.40483,161.555 N. Torque about the origin on body 3 is -0.0294916,0.0923121,0.000631624 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.38153,2.06468,0.495474 N. Torque about the origin on body 4 is -0.0901663,-0.0548661,-0.0208164 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.85,-9.80268,-16.1561 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0362749,0.0558951,-0.0205117 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.86009,9.16854,-15.7745 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0541931,-0.0439716,-0.0397717 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.94806,-10.5638,-16.1237 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 0.00258054,-0.00140063,0.0193596 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.38146,12.2329,-15.9107 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0861765,0.0736161,0.015485 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.3688,-0.601409,-15.8567 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0265204,-0.0896928,0.0509788 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.0145,-0.628272,-15.9449 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0287424,-0.00413035,-0.0331775 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.32804,-0.0542987,-72.7707 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.022831,0.0972064,-0.00671632 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.10085,1.23076,162.339 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0237808,0.100401,-0.00335463 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.38153,2.06468,0.495474 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0901663,-0.0548661,-0.0208164 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.111278,0.00309064,0.376876 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -7.83897e-05,-0.00324667,0.000184726 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0513495,0.106369,0.383026 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00232576,-0.00240131,0.000502283 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0718894,0.0956982,0.422936 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00527362,0.00168195,0.000721995 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.131233,-0.00819188,0.415031 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.00071024,0.00402973,0.000507059 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0619506,-0.12454,0.404309 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00209521,0.00240555,0.000453113 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0701645,-0.116429,0.455887 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00527985,-0.00247566,0.000155637 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05599,0.0040193,-0.251855 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000120911,0.0383922,0.000265183 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.49429,-0.924865,-0.252425 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0338195,-0.0190364,0.00168886 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.527457,-0.906237,-0.0925492 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0261316,0.0152014,0.000237337 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.398315,0.988579,-0.247352 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0348742,0.0165859,0.0074818 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.514423,0.929243,-0.137067 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0286543,-0.0170115,-0.000861187 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04735,0.0968379,-0.30358 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.00204767,-0.040999,-0.00506104 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0679991,-0.00161492,0.215124 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000116755,0.00214752,-9.36582e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0344898,0.0591444,0.2156 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00181809,0.0010979,-3.17935e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0351475,0.0593253,0.215515 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00184952,-0.00113404,2.79741e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0698026,0.000188661,0.216177 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.52752e-05,-0.0022032,-6.08124e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0355572,-0.0595808,0.217059 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00180554,-0.0011361,-6.91442e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0358124,-0.0601535,0.214526 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00194917,0.00122496,5.18374e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.99211,-0.000992394,0.225851 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.58051e-05,0.0118689,-5.66592e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.495614,-0.857971,0.227751 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.010125,-0.00588536,-3.50227e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.494696,-0.858628,0.227568 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0101692,0.00583723,-7.1545e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.4953,0.860652,0.225736 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103002,0.00593014,6.88022e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.495738,0.857939,0.225523 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0102437,-0.00591434,2.29903e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.992542,0.000379115,0.224712 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -7.61727e-06,-0.0118996,-4.22732e-05 N.m. Finished calculating global parameters for time step 11 seconds. 0:10:28 819.2 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833291603877 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831015771071 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831002152143 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831489478203 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834236354334 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833897491707 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833374746386 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833593448861 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832319955351 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833385688809 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.833048938302 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833377432597 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:10:28 816.3 MB After remeshing 0:10:48 797 MB Solving finite element problem. No. of tetrahedra = 1,290,475 No. of nodes = 224,525 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:10:48 695.2 MB No. of Edges = 1,517,065 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,261,872 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,496,463 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 245,127 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:10:54 781.3 MB No. of Non Zeros = 2,073,009 0:10:57 781 MB Allocating 8.292036 MB Allocating 16.584072 MB Allocating 16.584072 MB 0:11:00 820.6 MB Solving for time = 12 Matrix reordering found. 0:11:00 826.2 MB Matrix partitioned into sizes of 30,642 32,709 74,350 67,503 39,923 0 0 0 Non zeros in each block: 319,484 205,782 514,797 629,163 332,280 0 0 0 Matrix reordering applied. 0:11:00 826.2 MB Before matrix assembly 0:11:00 828.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.79226 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72958 After matrix assembly 0:11:02 830 MB Starting Cholesky decomposition. 0:11:02 846.8 MB Starting Conjugate Gradient. 0:11:02 846.8 MB CG tolerance 0.01% Newton 1:41 CG steps; change 24.8132%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.248132 0:11:03 828.1 MB Finished the step. 0:11:03 828.1 MB Before matrix assembly 0:11:03 828.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89444 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72883 After matrix assembly 0:11:05 828.7 MB Starting Cholesky decomposition. 0:11:05 845.5 MB Starting Conjugate Gradient. 0:11:05 845.5 MB CG tolerance 0.01% Newton 2:117 CG steps; change 0.170782%, target 0.1% alpha = 1 RHS error = 0.00922832 Step error = 0.00170782 0:11:06 827.2 MB Finished the step. 0:11:06 827.2 MB Before matrix assembly 0:11:06 827.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89798 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71807 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89753 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71945 After matrix assembly 0:11:10 828.6 MB Starting Cholesky decomposition. 0:11:10 845.5 MB Starting Conjugate Gradient. 0:11:10 845.5 MB CG tolerance 0.01% Newton 3:176 CG steps; change 0.00645202%, target 0.1% alpha = 0.87333 RHS error = 0.000775779 Step error = 6.45202e-05 0:11:11 827.1 MB Finished the step. 0:11:11 827.1 MB Global values for time = 12 seconds Instantaneous magnetic energy in the model = -8.72238 joules Instantaneous magnetic co - energy in the model = 9.46299 joules Instantaneous Ohmic loss = 7.12159e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 7.12078e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 7.10346e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 7.12955e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 7.12492e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 7.14249e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0791487 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0790871 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0790059 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.079054 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0792434 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0792202 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.202538 webers Instantaneous terminal voltage = 3.83332 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.20258 webers Instantaneous terminal voltage = 3.83354 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.202559 webers Instantaneous terminal voltage = 3.83227 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.202474 webers Instantaneous terminal voltage = 3.83333 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.202586 webers Instantaneous terminal voltage = 3.83301 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.202629 webers Instantaneous terminal voltage = 3.83333 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.370135,0.0902987,-93.5505 N. Torque about the origin on body 1 is -0.00037577,-0.018478,0.0310635 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.33817,-0.133492,-70.934 N. Torque about the origin on body 2 is -0.0152936,0.101047,-0.0044989 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.12439,1.44016,161.876 N. Torque about the origin on body 3 is -0.0313839,0.0917648,0.00109768 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.35739,2.04388,-0.0564358 N. Torque about the origin on body 4 is -0.0920387,-0.0534307,-0.0196612 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.83543,-9.80555,-16.0351 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.042107,0.0597065,-0.0207619 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.83856,9.08012,-15.6368 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.060211,-0.0429013,-0.0401643 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.93633,-10.487,-16.0179 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.00371872,-0.00385905,0.0185769 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.35395,12.2438,-15.7916 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.082041,0.0710228,0.0145163 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.248,-0.610813,-15.7346 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0281276,-0.10063,0.0511647 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -11.9695,-0.643685,-15.8342 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0292287,0.00376946,-0.0331938 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.36318,-0.104815,-72.7783 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0178541,0.100074,-0.00699957 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.19147,1.28519,162.517 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0267554,0.0995659,-0.00217295 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.35739,2.04388,-0.0564358 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0920387,-0.0534307,-0.0196612 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.111801,0.00388925,0.367767 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.000136291,-0.00273495,0.000226036 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0510202,0.107113,0.373209 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00183623,-0.00216325,0.000535742 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0730278,0.0956255,0.41121 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00475793,0.00128125,0.000775473 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.13173,-0.00899532,0.402652 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000783091,0.00335551,0.000546998 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0620849,-0.125054,0.391631 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00149499,0.00205657,0.000461273 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0703043,-0.116908,0.442135 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.0046324,-0.00210435,0.000151639 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05702,0.00538113,-0.21931 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000137468,0.0367515,0.000339211 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.499219,-0.923259,-0.240193 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0332203,-0.0188153,0.00141962 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.521929,-0.91103,-0.0741073 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0253791,0.0146999,-0.000123667 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.410602,0.982676,-0.229741 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0339547,0.0164139,0.00678015 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.513254,0.930978,-0.109828 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.027465,-0.016279,-0.000977179 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04824,0.083701,-0.270839 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.00169722,-0.0393545,-0.0043942 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0685109,-0.00161586,0.215129 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000116832,0.00218613,-9.36583e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0347213,0.0595417,0.215629 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00184751,0.00111505,-3.19246e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0353914,0.0597539,0.215532 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00188151,-0.00115224,2.79036e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0702879,0.000192088,0.216189 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.55523e-05,-0.00223973,-6.16942e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0358069,-0.060008,0.217068 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00183768,-0.00115491,-6.92079e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0360483,-0.0605697,0.214543 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00198043,0.00124265,5.17413e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.992933,-0.000981621,0.225526 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.55352e-05,0.0118938,-5.64252e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496013,-0.858678,0.227444 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0101455,-0.00589709,-3.47298e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495092,-0.859291,0.227223 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0101902,0.00584965,-7.12686e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.49567,0.86139,0.225431 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103214,0.00594111,7.07678e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496153,0.858609,0.225157 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0102658,-0.00592775,2.38549e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.993307,0.000342645,0.22437 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -6.80975e-06,-0.0119237,-4.08179e-05 N.m. Finished calculating global parameters for time step 12 seconds. 0:11:15 822.7 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833288865991 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831019638414 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831002972984 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831490954761 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834237829509 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833895804639 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833315648425 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833539914525 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832271880272 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833327290191 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.833006354956 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833331549934 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:11:15 819.9 MB After remeshing 0:11:37 604 MB Solving finite element problem. No. of tetrahedra = 1,299,812 No. of nodes = 226,116 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:11:37 490.9 MB No. of Edges = 1,527,993 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,271,209 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,507,391 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,718 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:11:43 589.3 MB No. of Non Zeros = 2,085,528 0:11:46 606.5 MB Allocating 8.342112 MB Allocating 16.684224 MB Allocating 16.684224 MB 0:11:49 646.3 MB Solving for time = 13 Matrix reordering found. 0:11:49 659.8 MB Matrix partitioned into sizes of 30,841 33,143 74,571 68,061 40,102 0 0 0 Non zeros in each block: 320,697 208,796 517,709 632,043 334,766 0 0 0 Matrix reordering applied. 0:11:50 659.8 MB Before matrix assembly 0:11:50 661.7 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.78467 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.7189 After matrix assembly 0:11:52 670.6 MB Starting Cholesky decomposition. 0:11:52 687.6 MB Starting Conjugate Gradient. 0:11:52 687.6 MB CG tolerance 0.01% Newton 1:34 CG steps; change 24.797%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.24797 0:11:53 668.7 MB Finished the step. 0:11:53 668.7 MB Before matrix assembly 0:11:53 668.7 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88398 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71815 After matrix assembly 0:11:55 670.6 MB Starting Cholesky decomposition. 0:11:55 687.6 MB Starting Conjugate Gradient. 0:11:55 687.6 MB CG tolerance 0.01% Newton 2:113 CG steps; change 0.177846%, target 0.1% alpha = 1 RHS error = 0.0105078 Step error = 0.00177846 0:11:56 669.1 MB Finished the step. 0:11:56 669.1 MB Before matrix assembly 0:11:56 669.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88744 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70395 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88696 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70594 After matrix assembly 0:12:00 670.6 MB Starting Cholesky decomposition. 0:12:00 687.6 MB Starting Conjugate Gradient. 0:12:00 687.6 MB CG tolerance 0.01% Newton 3:174 CG steps; change 0.00697753%, target 0.1% alpha = 0.863111 RHS error = 0.00110145 Step error = 6.97753e-05 0:12:02 669.1 MB Finished the step. 0:12:02 669.1 MB Global values for time = 13 seconds Instantaneous magnetic energy in the model = -8.72123 joules Instantaneous magnetic co - energy in the model = 9.3688 joules Instantaneous Ohmic loss = 7.02881e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 7.0504e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 7.04341e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 7.05239e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 7.06038e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 7.06716e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.087043 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0869675 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0868887 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0869439 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0871309 webers Instantaneous terminal voltage = 3.83423 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0871096 webers Instantaneous terminal voltage = 3.83389 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.194914 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.19496 webers Instantaneous terminal voltage = 3.83351 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.194942 webers Instantaneous terminal voltage = 3.83224 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.194854 webers Instantaneous terminal voltage = 3.8333 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.194972 webers Instantaneous terminal voltage = 3.83297 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.195013 webers Instantaneous terminal voltage = 3.8333 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.355439,0.117038,-95.7668 N. Torque about the origin on body 1 is -0.00333288,-0.0185472,0.0247447 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.35297,-0.0918526,-70.7872 N. Torque about the origin on body 2 is -0.0181236,0.101346,-0.00451485 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.14742,1.48363,161.525 N. Torque about the origin on body 3 is -0.0308282,0.0968916,0.00158966 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.32583,2.0629,-0.648171 N. Torque about the origin on body 4 is -0.0936908,-0.0546118,-0.0184881 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.89194,-9.9333,-15.7146 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0313971,0.0558555,-0.0207351 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.92081,9.17598,-15.3027 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0520303,-0.0509882,-0.0410448 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.97562,-10.53,-15.7723 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.000792398,-0.000139947,0.0184497 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.40399,12.338,-15.46 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0927334,0.0772359,0.0148826 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.3435,-0.615007,-15.4715 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0287254,-0.0957299,0.0509122 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.0681,-0.619019,-15.5124 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0292322,-0.00521394,-0.0324739 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.37933,-0.062693,-72.5588 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0209279,0.100677,-0.00715171 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.212,1.35167,161.985 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0275408,0.104179,-0.00126645 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.32583,2.0629,-0.648171 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0936908,-0.0546118,-0.0184881 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.112332,0.00443422,0.358272 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.000175693,-0.00220221,0.000254633 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0507596,0.107807,0.362617 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.00131494,-0.00189917,0.000564723 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0740126,0.0956481,0.39881 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00420266,0.000875424,0.000819676 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.132224,-0.0097752,0.389784 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000854423,0.00265515,0.000585806 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.062317,-0.125507,0.378344 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.000871415,0.00168442,0.000463432 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0704002,-0.117407,0.428016 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00396609,-0.00172729,0.000144946 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05776,0.00702488,-0.181166 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000162196,0.0348193,0.000425819 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.50355,-0.921651,-0.219895 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0322689,-0.0183688,0.00117648 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.517124,-0.91505,-0.0532727 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0245063,0.0141472,-0.000433622 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.423992,0.97577,-0.203694 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0326407,0.0160497,0.00600419 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.515157,0.930629,-0.0761893 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0259565,-0.0154302,-0.000903728 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04884,0.0686966,-0.230099 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.00132465,-0.0372967,-0.00363151 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0690404,-0.00162146,0.215116 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.00011726,0.00222689,-9.38199e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0349584,0.0599331,0.21565 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00187686,0.00113287,-3.49168e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0356458,0.0601994,0.215525 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00191579,-0.00117182,2.78568e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0707831,0.000194211,0.216182 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.57318e-05,-0.00227792,-6.19918e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0360645,-0.0604472,0.217062 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00187142,-0.00117471,-6.92834e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0362943,-0.0609982,0.214537 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00201347,0.00126161,5.17566e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.993472,-0.000965279,0.225203 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.51779e-05,0.0119136,-5.59206e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496267,-0.85915,0.227141 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0101619,-0.00590629,-3.41242e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495352,-0.859703,0.226887 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102065,0.00585953,-7.06494e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.495885,0.861878,0.225112 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103388,0.00594968,7.31157e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496436,0.859038,0.224814 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0102829,-0.0059384,2.50155e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.993795,0.000298956,0.224043 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -5.85327e-06,-0.0119424,-3.90223e-05 N.m. Finished calculating global parameters for time step 13 seconds. 0:12:05 665.8 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833285019095 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831017908436 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.830995496727 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831485269102 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.83423278014 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833888029846 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833286441099 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833508505621 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832239257904 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833299285327 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.832969709622 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833295290623 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:12:05 663.9 MB After remeshing 0:12:26 819.2 MB Solving finite element problem. No. of tetrahedra = 1,295,576 No. of nodes = 225,364 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:12:26 717.2 MB No. of Edges = 1,523,005 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,266,973 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,502,403 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 245,966 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:12:32 804.1 MB No. of Non Zeros = 2,079,788 0:12:35 803.8 MB Allocating 8.319152 MB Allocating 16.638304 MB Allocating 16.638304 MB 0:12:38 843.5 MB Solving for time = 14 Matrix reordering found. 0:12:38 849.2 MB Matrix partitioned into sizes of 30,747 32,918 74,336 67,771 40,194 0 0 0 Non zeros in each block: 320,119 207,272 515,111 630,246 335,533 0 0 0 Matrix reordering applied. 0:12:38 849.2 MB Before matrix assembly 0:12:39 851 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.78188 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70494 After matrix assembly 0:12:41 853.6 MB Starting Cholesky decomposition. 0:12:41 870.5 MB Starting Conjugate Gradient. 0:12:41 870.5 MB CG tolerance 0.01% Newton 1:34 CG steps; change 24.767%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.24767 0:12:41 851.7 MB Finished the step. 0:12:41 851.7 MB Before matrix assembly 0:12:41 851.7 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87792 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70438 After matrix assembly 0:12:44 853.6 MB Starting Cholesky decomposition. 0:12:44 870.5 MB Starting Conjugate Gradient. 0:12:44 870.5 MB CG tolerance 0.01% Newton 2:113 CG steps; change 0.174056%, target 0.1% alpha = 1 RHS error = 0.00980268 Step error = 0.00174056 0:12:45 852 MB Finished the step. 0:12:45 852 MB Before matrix assembly 0:12:45 852 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88121 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.69759 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88075 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.69679 After matrix assembly 0:12:49 853.6 MB Starting Cholesky decomposition. 0:12:49 870.5 MB Starting Conjugate Gradient. 0:12:49 870.5 MB CG tolerance 0.01% Newton 3:172 CG steps; change 0.00679025%, target 0.1% alpha = 0.860384 RHS error = 0.00114419 Step error = 6.79025e-05 0:12:51 852 MB Finished the step. 0:12:51 852 MB Global values for time = 14 seconds Instantaneous magnetic energy in the model = -8.72144 joules Instantaneous magnetic co - energy in the model = 9.27587 joules Instantaneous Ohmic loss = 6.93307e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.96294e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.95691e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.94496e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.97571e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.95472e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.0949361 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.0948505 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.0947672 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.0948274 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.0950169 webers Instantaneous terminal voltage = 3.83423 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.0949976 webers Instantaneous terminal voltage = 3.83389 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.187279 webers Instantaneous terminal voltage = 3.83327 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.187324 webers Instantaneous terminal voltage = 3.83349 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.187305 webers Instantaneous terminal voltage = 3.83222 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.187217 webers Instantaneous terminal voltage = 3.83328 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.187329 webers Instantaneous terminal voltage = 3.83294 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.18737 webers Instantaneous terminal voltage = 3.83327 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.252752,0.0902725,-96.7153 N. Torque about the origin on body 1 is -0.00154925,-0.012827,0.0207416 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.33259,-0.0662203,-70.8193 N. Torque about the origin on body 2 is -0.0201898,0.101064,-0.00493966 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 2.99421,1.51583,161.494 N. Torque about the origin on body 3 is -0.0314838,0.0897477,0.00193007 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.27276,2.07057,0.125504 N. Torque about the origin on body 4 is -0.0961395,-0.0555589,-0.0185234 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.94253,-10.0503,-15.7809 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0324574,0.0590328,-0.0206623 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.97401,9.30225,-15.236 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0527141,-0.0518747,-0.0412401 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.01393,-10.6189,-15.6973 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.001907,-0.0011787,0.017709 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.46482,12.4385,-15.4558 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0940464,0.0783486,0.0154915 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.5159,-0.581963,-15.4105 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0280312,-0.0958368,0.0502533 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.1504,-0.595416,-15.4635 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0300927,-0.00627679,-0.0319701 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.36023,-0.0364962,-72.517 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0232324,0.100695,-0.00765313 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.0573,1.40544,161.767 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0294926,0.096571,-0.000927013 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.27276,2.07057,0.125504 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0961395,-0.0555589,-0.0185234 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.112879,0.00465402,0.348702 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.000190493,-0.001664,0.000266612 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.050621,0.108459,0.351544 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.000774492,-0.00161247,0.000587014 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0748055,0.0957819,0.386212 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00362797,0.000480511,0.00085229 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.132706,-0.0103929,0.376805 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000913087,0.0019488,0.000616323 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0627283,-0.12588,0.364734 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.00023876,0.00128997,0.000455612 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0703915,-0.117964,0.413751 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00328743,-0.0013549,0.000131878 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05819,0.00942501,-0.14105 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000193775,0.0327811,0.000549342 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.506879,-0.920241,-0.193662 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0310629,-0.0177473,0.000983912 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.514443,-0.917621,-0.0358351 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0237641,0.0137052,-0.000613461 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.436197,0.969272,-0.173042 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0311343,0.0155395,0.00529173 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.519882,0.928426,-0.0447289 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0245176,-0.014682,-0.000654462 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04931,0.0545675,-0.189198 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000992877,-0.0352285,-0.00291226 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0695891,-0.00162506,0.215093 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000117526,0.00226962,-9.39175e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0352042,0.0603526,0.215662 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00190854,0.00115148,-3.59576e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0359017,0.0606442,0.215515 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00195021,-0.00119162,2.78215e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0712608,0.000199886,0.216185 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.61826e-05,-0.00231454,-6.37765e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.036337,-0.0609051,0.217049 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00190683,-0.00119579,-6.95059e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.03654,-0.0614315,0.214528 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00204704,0.00128066,5.1638e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.993762,-0.000965793,0.22484 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.52154e-05,0.0119303,-5.5989e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496405,-0.859386,0.226789 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0101755,-0.00591431,-3.41358e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495511,-0.859976,0.226556 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102202,0.00586747,-7.06779e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.496015,0.862183,0.224772 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103535,0.00595724,7.4779e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496607,0.8593,0.224481 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0102965,-0.00594668,2.57014e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.994135,0.000264092,0.223738 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -5.08802e-06,-0.0119577,-3.754e-05 N.m. Finished calculating global parameters for time step 14 seconds. 0:12:54 847.6 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833286110851 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.83101534683 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.830999783334 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831491631373 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.83423430139 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833889563226 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833274772039 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833493587814 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.83222002148 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.83328285276 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.832940708492 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833267878264 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:12:54 844.8 MB After remeshing 0:13:15 832.8 MB Solving finite element problem. No. of tetrahedra = 1,291,413 No. of nodes = 224,713 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:13:15 731.1 MB No. of Edges = 1,518,191 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,262,810 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,497,589 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 245,315 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:13:21 817.4 MB No. of Non Zeros = 2,074,323 0:13:24 817 MB Allocating 8.297292 MB Allocating 16.594584 MB Allocating 16.594584 MB 0:13:27 856.7 MB Solving for time = 15 Matrix reordering found. 0:13:27 862.3 MB Matrix partitioned into sizes of 30,665 32,797 74,092 67,421 40,340 0 0 0 Non zeros in each block: 319,578 206,453 512,682 628,973 335,128 0 0 0 Matrix reordering applied. 0:13:27 862.3 MB Before matrix assembly 0:13:27 864.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.76245 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.69692 After matrix assembly 0:13:30 866.1 MB Starting Cholesky decomposition. 0:13:30 883 MB Starting Conjugate Gradient. 0:13:30 883 MB CG tolerance 0.01% Newton 1:33 CG steps; change 24.7199%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.247199 0:13:30 864.2 MB Finished the step. 0:13:30 864.2 MB Before matrix assembly 0:13:30 864.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89372 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.69727 After matrix assembly 0:13:33 866.1 MB Starting Cholesky decomposition. 0:13:33 883 MB Starting Conjugate Gradient. 0:13:33 883 MB CG tolerance 0.01% Newton 2:111 CG steps; change 0.165516%, target 0.1% alpha = 1 RHS error = 0.00877993 Step error = 0.00165516 0:13:34 864.5 MB Finished the step. 0:13:34 864.5 MB Before matrix assembly 0:13:34 864.5 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89701 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70679 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89654 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70546 After matrix assembly 0:13:38 866.1 MB Starting Cholesky decomposition. 0:13:38 883 MB Starting Conjugate Gradient. 0:13:39 883 MB CG tolerance 0.01% Newton 3:169 CG steps; change 0.00643538%, target 0.1% alpha = 0.858539 RHS error = 0.00123333 Step error = 6.43538e-05 0:13:40 864.5 MB Finished the step. 0:13:40 864.5 MB Global values for time = 15 seconds Instantaneous magnetic energy in the model = -8.7205 joules Instantaneous magnetic co - energy in the model = 9.18164 joules Instantaneous Ohmic loss = 6.86586e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.8494e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.85224e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.86945e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.8591e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.85155e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.102829 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.102738 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.102652 webers Instantaneous terminal voltage = 3.83099 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.102715 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.102903 webers Instantaneous terminal voltage = 3.83423 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.102885 webers Instantaneous terminal voltage = 3.83389 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.179625 webers Instantaneous terminal voltage = 3.83326 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.179652 webers Instantaneous terminal voltage = 3.83346 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.179651 webers Instantaneous terminal voltage = 3.8322 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.179541 webers Instantaneous terminal voltage = 3.83324 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.179672 webers Instantaneous terminal voltage = 3.83293 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.179716 webers Instantaneous terminal voltage = 3.83326 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.197543,0.0953421,-95.5909 N. Torque about the origin on body 1 is -0.00350539,-0.00451952,0.0274024 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.31017,-0.0254803,-70.8554 N. Torque about the origin on body 2 is -0.0240237,0.0989916,-0.00502482 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.0371,1.54165,161.571 N. Torque about the origin on body 3 is -0.0312123,0.0857162,0.00206929 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.25244,2.02974,0.378599 N. Torque about the origin on body 4 is -0.0981935,-0.0559163,-0.0195683 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.92758,-9.97446,-16.0661 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0578506,0.0722589,-0.020688 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.8486,9.11074,-15.5419 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0828506,-0.0345777,-0.0415673 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.91599,-10.4941,-15.9228 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.0241682,-0.0152706,0.0179314 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.43711,12.3539,-15.7641 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0709042,0.0664712,0.014558 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.3228,-0.579312,-15.595 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0290925,-0.121735,0.0498315 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.0918,-0.568551,-15.719 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0289318,0.0172871,-0.0320679 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.33898,0.0047197,-72.4793 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.027277,0.0989118,-0.00775351 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.09992,1.4497,161.654 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0302825,0.0922124,-0.00116984 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.25244,2.02974,0.378599 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0981935,-0.0559163,-0.0195683 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.113421,0.00458996,0.339268 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.00018447,-0.00113245,0.00026408 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0505882,0.109052,0.340238 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.000227059,-0.00131093,0.000602986 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0753577,0.0960563,0.373638 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00304151,0.000106325,0.000870343 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.13321,-0.0107669,0.36388 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000952237,0.00124281,0.000634184 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0632622,-0.126165,0.351181 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.000385812,0.000887577,0.00044001 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0703029,-0.118587,0.399704 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00261233,-0.000994549,0.000113215 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05853,0.0121958,-0.0989555 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000222507,0.0306394,0.000691045 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.509297,-0.919313,-0.162164 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.029637,-0.0169733,0.000844952 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.513796,-0.918778,-0.021211 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0231274,0.0133549,-0.000668187 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.445809,0.964217,-0.140318 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0295696,0.014917,0.00473149 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.526283,0.925094,-0.0165992 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0232113,-0.0140427,-0.000298761 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04955,0.0419548,-0.149339 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000711953,-0.0332074,-0.00226929 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0701282,-0.00162757,0.215078 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000117712,0.00231134,-9.4026e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0354494,0.06078,0.215664 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00194147,0.00117039,-3.57428e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0361571,0.0610896,0.215504 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00198486,-0.0012115,2.77158e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0717667,0.000201428,0.216174 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.63006e-05,-0.00235384,-6.42874e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0365955,-0.0613445,0.217045 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00194073,-0.00121573,-6.96598e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0367918,-0.0618734,0.214523 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00208117,0.00130013,5.15355e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.993935,-0.000984685,0.224485 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.55931e-05,0.0119446,-5.6699e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496532,-0.859562,0.226495 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0101862,-0.00592108,-3.49558e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495585,-0.860127,0.226213 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102322,0.00587408,-7.10878e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.496132,0.862408,0.224492 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103648,0.00596347,7.53423e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496704,0.859463,0.224155 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.010308,-0.00595341,2.58486e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.994311,0.000239941,0.223404 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -4.60194e-06,-0.0119711,-3.64635e-05 N.m. Finished calculating global parameters for time step 15 seconds. 0:13:43 860.1 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833286178937 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831010654939 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.830993457394 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831487559645 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834234279766 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833890386809 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833256080374 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833456990393 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832202912671 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833243596172 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.83292678833 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833257306284 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:13:43 857.3 MB After remeshing 0:14:05 833.4 MB Solving finite element problem. No. of tetrahedra = 1,298,027 No. of nodes = 225,782 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:14:05 732.1 MB No. of Edges = 1,525,874 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,269,424 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,505,272 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,384 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:14:10 819.1 MB No. of Non Zeros = 2,083,075 0:14:13 818.7 MB Allocating 8.332300 MB Allocating 16.664600 MB Allocating 16.664600 MB 0:14:16 858.5 MB Solving for time = 16 Matrix reordering found. 0:14:16 864.2 MB Matrix partitioned into sizes of 30,799 33,093 74,342 67,718 40,432 0 0 0 Non zeros in each block: 320,402 208,504 515,518 629,804 337,338 0 0 0 Matrix reordering applied. 0:14:16 864.2 MB Before matrix assembly 0:14:16 866 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.73897 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70614 After matrix assembly 0:14:18 867.9 MB Starting Cholesky decomposition. 0:14:18 884.9 MB Starting Conjugate Gradient. 0:14:18 884.9 MB CG tolerance 0.01% Newton 1:34 CG steps; change 24.5959%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.245959 0:14:19 866 MB Finished the step. 0:14:19 866 MB Before matrix assembly 0:14:19 866 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88365 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70584 After matrix assembly 0:14:21 867.9 MB Starting Cholesky decomposition. 0:14:21 884.9 MB Starting Conjugate Gradient. 0:14:21 884.9 MB CG tolerance 0.01% Newton 2:112 CG steps; change 0.175228%, target 0.1% alpha = 1 RHS error = 0.00855651 Step error = 0.00175228 0:14:22 866.4 MB Finished the step. 0:14:22 866.4 MB Before matrix assembly 0:14:22 866.4 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88635 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71083 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.88593 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71005 After matrix assembly 0:14:27 867.9 MB Starting Cholesky decomposition. 0:14:27 884.9 MB Starting Conjugate Gradient. 0:14:27 884.9 MB CG tolerance 0.01% Newton 3:167 CG steps; change 0.00707001%, target 0.1% alpha = 0.842692 RHS error = 0.00158855 Step error = 7.07001e-05 0:14:28 866.4 MB Finished the step. 0:14:28 866.4 MB Global values for time = 16 seconds Instantaneous magnetic energy in the model = -8.71918 joules Instantaneous magnetic co - energy in the model = 9.08691 joules Instantaneous Ohmic loss = 6.696e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.66452e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.67282e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.68571e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.67668e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.69287e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.110719 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.110623 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.110536 webers Instantaneous terminal voltage = 3.83099 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.1106 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.110787 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.110768 webers Instantaneous terminal voltage = 3.83389 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.171943 webers Instantaneous terminal voltage = 3.83323 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.171961 webers Instantaneous terminal voltage = 3.83344 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.171977 webers Instantaneous terminal voltage = 3.83218 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.171842 webers Instantaneous terminal voltage = 3.83322 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.171997 webers Instantaneous terminal voltage = 3.83291 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.172046 webers Instantaneous terminal voltage = 3.83324 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.354546,0.047617,-91.9905 N. Torque about the origin on body 1 is -0.00289387,-0.0163754,0.0278701 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.30757,-0.020452,-70.7517 N. Torque about the origin on body 2 is -0.0254893,0.0989758,-0.0049856 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.10191,1.67089,161.23 N. Torque about the origin on body 3 is -0.0357115,0.0877622,0.00151786 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.25883,1.93601,-0.0781656 N. Torque about the origin on body 4 is -0.0979384,-0.0573486,-0.0194476 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.90145,-9.86032,-16.1233 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0742699,0.0816511,-0.0198947 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.75068,8.96808,-15.691 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.103506,-0.0239241,-0.0412289 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.79885,-10.3464,-16.1047 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.0457335,-0.0286368,0.0190364 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.37939,12.3234,-15.8697 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0595566,0.0575447,0.0135666 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.1404,-0.575673,-15.7507 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0292943,-0.147664,0.0505826 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -11.8807,-0.569854,-15.9148 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0293408,0.0451835,-0.0317221 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.33719,0.0101947,-72.304 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0289298,0.0991549,-0.00769658 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.16558,1.59308,161.137 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0355644,0.0940092,-0.00232699 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.25883,1.93601,-0.0781656 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0979384,-0.0573486,-0.0194476 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.113968,0.00439528,0.33025 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.000170276,-0.000621712,0.000254906 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0506631,0.109582,0.329072 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.000310252,-0.00100417,0.000612609 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0756413,0.0965071,0.361444 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00245644,-0.000235297,0.000871703 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.133727,-0.0110887,0.351323 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000986826,0.000553905,0.000649574 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0638168,-0.126454,0.338008 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.000994553,0.000493952,0.000423308 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0702319,-0.119205,0.386172 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00196005,-0.000646038,9.48655e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05879,0.0146625,-0.0590823 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000239504,0.0286079,0.000816468 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.510747,-0.918815,-0.1306 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0282145,-0.0161837,0.000760342 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.514519,-0.918898,-0.00833332 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0225546,0.0130574,-0.000636909 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.451897,0.961087,-0.10987 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0281451,0.0142756,0.00437661 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.532692,0.921609,0.00796693 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0220631,-0.0134888,6.39211e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04959,0.0315811,-0.112445 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000492399,-0.0313294,-0.00173966 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0706732,-0.00162232,0.215061 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.00011731,0.00235371,-9.38522e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0356972,0.0612084,0.215656 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00197491,0.00118974,-3.61915e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0364191,0.0615486,0.215496 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0020204,-0.00123182,2.75685e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0722853,0.000208181,0.216161 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.68001e-05,-0.00239419,-6.69497e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0368634,-0.0617995,0.217036 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00197607,-0.00123652,-6.98577e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0370467,-0.062313,0.21452 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00211512,0.0013198,5.15446e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.994058,-0.00100202,0.22414 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.59164e-05,0.0119577,-5.72667e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496635,-0.859688,0.226202 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0101961,-0.00592747,-3.59013e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495606,-0.860185,0.225845 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102433,0.0058802,-7.14218e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.496225,0.86257,0.224225 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103746,0.00596906,7.55018e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496758,0.859568,0.22382 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.010319,-0.00595959,2.5723e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.99436,0.000220287,0.223026 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -4.17779e-06,-0.0119839,-3.55537e-05 N.m. Finished calculating global parameters for time step 16 seconds. 0:14:31 860.2 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833289101847 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831013033368 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.830994765685 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831490401548 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834236066992 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833894179748 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833228446565 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833437921428 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832182573312 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833219821501 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.832908234035 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833241462885 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:14:31 857.4 MB After remeshing 0:14:52 840.4 MB Solving finite element problem. No. of tetrahedra = 1,288,219 No. of nodes = 224,092 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:14:52 738.4 MB No. of Edges = 1,514,376 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,259,616 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,493,774 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 244,694 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:14:57 824.4 MB No. of Non Zeros = 2,069,887 0:15:00 824.1 MB Allocating 8.279548 MB Allocating 16.559096 MB Allocating 16.559096 MB 0:15:03 863.6 MB Solving for time = 17 Matrix reordering found. 0:15:03 869.2 MB Matrix partitioned into sizes of 30,588 32,550 73,908 66,821 40,827 0 0 0 Non zeros in each block: 319,162 204,606 510,575 624,768 339,259 0 0 0 Matrix reordering applied. 0:15:03 869.2 MB Before matrix assembly 0:15:03 871.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.67819 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.70991 After matrix assembly 0:15:06 873 MB Starting Cholesky decomposition. 0:15:06 889.8 MB Starting Conjugate Gradient. 0:15:06 889.8 MB CG tolerance 0.01% Newton 1:33 CG steps; change 24.2952%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.242952 0:15:06 871.1 MB Finished the step. 0:15:06 871.1 MB Before matrix assembly 0:15:06 871.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.85976 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71012 After matrix assembly 0:15:08 873 MB Starting Cholesky decomposition. 0:15:08 889.8 MB Starting Conjugate Gradient. 0:15:09 889.8 MB CG tolerance 0.01% Newton 2:110 CG steps; change 0.176498%, target 0.1% alpha = 1 RHS error = 0.00698217 Step error = 0.00176498 0:15:09 871.5 MB Finished the step. 0:15:09 871.5 MB Before matrix assembly 0:15:09 871.5 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.8618 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71864 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.86144 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71717 After matrix assembly 0:15:14 873 MB Starting Cholesky decomposition. 0:15:14 889.8 MB Starting Conjugate Gradient. 0:15:14 889.8 MB CG tolerance 0.01% Newton 3:165 CG steps; change 0.00733452%, target 0.1% alpha = 0.825119 RHS error = 0.00157532 Step error = 7.33452e-05 0:15:15 871.5 MB Finished the step. 0:15:15 871.5 MB Global values for time = 17 seconds Instantaneous magnetic energy in the model = -8.71803 joules Instantaneous magnetic co - energy in the model = 8.99224 joules Instantaneous Ohmic loss = 6.45497e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.46604e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.46123e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.46423e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.46141e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.46447e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.118606 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.118511 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.118418 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.118485 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.118677 webers Instantaneous terminal voltage = 3.83423 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.118653 webers Instantaneous terminal voltage = 3.83389 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.164242 webers Instantaneous terminal voltage = 3.83321 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.164253 webers Instantaneous terminal voltage = 3.83342 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.164272 webers Instantaneous terminal voltage = 3.83215 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.164132 webers Instantaneous terminal voltage = 3.83321 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.1643 webers Instantaneous terminal voltage = 3.83289 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.164355 webers Instantaneous terminal voltage = 3.83322 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.330486,-0.0451947,-92.5437 N. Torque about the origin on body 1 is 0.00442374,-0.0127895,0.0239149 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.29094,0.0240521,-70.6186 N. Torque about the origin on body 2 is -0.0284327,0.0972549,-0.00464876 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.10936,1.6907,161.14 N. Torque about the origin on body 3 is -0.0359889,0.0918829,0.0012795 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.21513,1.87417,-0.548237 N. Torque about the origin on body 4 is -0.0980426,-0.0575803,-0.0197289 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -4.9909,-10.0536,-15.8669 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0617146,0.0769766,-0.0202553 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -6.95258,9.24107,-15.4227 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0890614,-0.0358706,-0.0417707 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 5.95704,-10.5978,-15.8199 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.0307049,-0.0197824,0.0192693 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.45879,12.5261,-15.6064 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0741287,0.0638609,0.012978 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.3693,-0.616026,-15.4231 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0318617,-0.133489,0.0511489 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.1488,-0.552283,-15.6787 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0292089,0.0309141,-0.031186 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.32085,0.0550413,-72.103 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.032028,0.0976541,-0.00730267 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.17431,1.62271,160.897 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0363448,0.097909,-0.00317157 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.21513,1.87417,-0.548237 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.0980426,-0.0575803,-0.0197289 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.114518,0.00411973,0.321928 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.000151425,-0.000146168,0.000241577 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0508872,0.110067,0.318309 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.000826518,-0.000695664,0.000614509 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0755415,0.0971845,0.349818 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00187673,-0.00052939,0.000849903 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.134264,-0.0113283,0.339296 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.00101407,-0.000109907,0.000661023 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0643245,-0.126784,0.325508 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00157715,0.000122105,0.000409499 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.070121,-0.119866,0.373404 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.00133769,-0.000320851,7.3083e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.0589,0.0162276,-0.0252729 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.00023826,0.0268802,0.000894963 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.511354,-0.918624,-0.102627 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0269531,-0.0154773,0.000721256 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.515805,-0.91857,0.00326564 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0220365,0.0127872,-0.000570659 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.454754,0.959606,-0.0841987 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0269646,0.0136848,0.00420758 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.537646,0.918817,0.028397 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0211124,-0.0130099,0.000346322 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04954,0.023943,-0.0806896 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000344,-0.0297078,-0.00134915 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0712165,-0.00162239,0.215048 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000117325,0.00239588,-9.38439e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0359654,0.0616714,0.215634 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00201146,0.00121094,-3.68148e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0366847,0.0620109,0.215482 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00205649,-0.00125256,2.74778e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0728278,0.000217172,0.216139 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.74622e-05,-0.00243678,-7.06413e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0371416,-0.0622773,0.21701 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.0020137,-0.00125845,-6.99541e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0373079,-0.0627673,0.214513 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00215044,0.0013401,5.15059e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.994129,-0.000999661,0.223783 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.58619e-05,0.0119705,-5.70581e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496703,-0.859767,0.225884 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0102062,-0.0059338,-3.65701e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495637,-0.860236,0.225505 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102535,0.00588601,-7.13266e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.496289,0.862677,0.223922 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103847,0.00597493,7.55446e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496793,0.859626,0.22348 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0103293,-0.00596551,2.58241e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.994373,0.000212076,0.222645 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -3.92012e-06,-0.0119963,-3.51092e-05 N.m. Finished calculating global parameters for time step 17 seconds. 0:15:18 867.1 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.83329280294 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831010378884 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.830995627753 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831490058902 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834230260797 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833892811358 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833209006335 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.83342057022 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832152826453 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833210109484 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.832886540805 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833219540347 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:15:18 864.3 MB After remeshing 0:15:40 847.4 MB Solving finite element problem. No. of tetrahedra = 1,300,868 No. of nodes = 226,441 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:15:40 746.6 MB No. of Edges = 1,529,374 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,272,265 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,508,772 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 247,043 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:15:46 834.3 MB No. of Non Zeros = 2,087,234 0:15:49 833.9 MB Allocating 8.348936 MB Allocating 16.697872 MB Allocating 16.697872 MB 0:15:52 873.8 MB Solving for time = 18 Matrix reordering found. 0:15:52 879.5 MB Matrix partitioned into sizes of 30,881 33,219 74,292 68,321 40,330 0 0 0 Non zeros in each block: 320,946 209,331 515,431 633,263 336,753 0 0 0 Matrix reordering applied. 0:15:52 879.5 MB Before matrix assembly 0:15:52 881.4 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.50833 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71773 After matrix assembly 0:15:55 883.5 MB Starting Cholesky decomposition. 0:15:55 900.5 MB Starting Conjugate Gradient. 0:15:55 900.5 MB CG tolerance 0.01% Newton 1:33 CG steps; change 24.1719%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.241719 0:15:55 881.6 MB Finished the step. 0:15:55 881.6 MB Before matrix assembly 0:15:55 881.6 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87397 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.71811 After matrix assembly 0:15:58 883.5 MB Starting Cholesky decomposition. 0:15:58 900.5 MB Starting Conjugate Gradient. 0:15:58 900.5 MB CG tolerance 0.01% Newton 2:106 CG steps; change 0.174181%, target 0.1% alpha = 1 RHS error = 0.00682761 Step error = 0.00174181 0:15:59 882 MB Finished the step. 0:15:59 882 MB Before matrix assembly 0:15:59 882 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87539 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72776 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87512 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72596 After matrix assembly 0:16:03 883.5 MB Starting Cholesky decomposition. 0:16:03 900.5 MB Starting Conjugate Gradient. 0:16:03 900.5 MB CG tolerance 0.01% Newton 3:169 CG steps; change 0.0072136%, target 0.1% alpha = 0.81021 RHS error = 0.0010561 Step error = 7.2136e-05 0:16:04 882 MB Finished the step. 0:16:04 882 MB Global values for time = 18 seconds Instantaneous magnetic energy in the model = -8.71781 joules Instantaneous magnetic co - energy in the model = 8.89823 joules Instantaneous Ohmic loss = 6.24263e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 6.22058e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 6.21988e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 6.24669e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 6.23391e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 6.23964e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.126493 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.126396 webers Instantaneous terminal voltage = 3.83101 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.126301 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.126374 webers Instantaneous terminal voltage = 3.83149 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.126561 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.126533 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.1565 webers Instantaneous terminal voltage = 3.83317 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.156491 webers Instantaneous terminal voltage = 3.83337 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.156534 webers Instantaneous terminal voltage = 3.83212 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.156364 webers Instantaneous terminal voltage = 3.83315 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.156566 webers Instantaneous terminal voltage = 3.83285 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.156622 webers Instantaneous terminal voltage = 3.83318 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.338012,0.0883598,-96.0328 N. Torque about the origin on body 1 is -0.00182253,-0.0121262,0.0197446 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.29739,-0.00702019,-70.8268 N. Torque about the origin on body 2 is -0.0260179,0.0976886,-0.00477844 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.1411,1.71227,161.716 N. Torque about the origin on body 3 is -0.0370462,0.0937772,0.000982275 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.19465,1.93851,0.130372 N. Torque about the origin on body 4 is -0.106205,-0.0589018,-0.0201926 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.24388,-10.4343,-15.8754 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0584405,0.0727548,-0.0196613 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -7.16401,9.56937,-15.3395 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0844139,-0.0405314,-0.0427451 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.11412,-10.8662,-15.7321 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.0256466,-0.0176153,0.0191887 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.70162,12.9041,-15.5889 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0813912,0.0701003,0.0137281 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 10.6504,-0.643565,-15.3561 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0340724,-0.133088,0.0514919 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.5344,-0.541626,-15.5682 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0282996,0.0217511,-0.0311635 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.32713,0.0240841,-72.248 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0297171,0.0982733,-0.00733663 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.20738,1.65077,161.342 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0376399,0.0995957,-0.00392485 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.19465,1.93851,0.130372 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.106205,-0.0589018,-0.0201926 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.115084,0.00376276,0.314368 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.000127387,0.000291523,0.000224041 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0512211,0.110484,0.308145 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00131184,-0.000393128,0.00060992 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0751384,0.0980436,0.338947 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.00131434,-0.00077779,0.000809694 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.134812,-0.0113601,0.327935 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.00102283,-0.000741379,0.000661854 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0647976,-0.127113,0.313955 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00211828,-0.000222874,0.000396937 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0700169,-0.120528,0.361635 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.000759236,-2.10533e-05,5.12022e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05899,0.0166072,0.00291556 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.00021532,0.0254377,0.000912576 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.511665,-0.918687,-0.0770164 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.025802,-0.0148312,0.000702669 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.517,-0.918209,0.0147168 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0215293,0.0125071,-0.000508722 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.455529,0.959399,-0.0623163 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0259823,0.0131402,0.00416431 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.540743,0.917057,0.0459814 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0203088,-0.0125684,0.000521328 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04952,0.0187469,-0.0536882 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000261067,-0.0283262,-0.00108314 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0717788,-0.00162139,0.215023 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000117242,0.00244018,-9.37632e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0362294,0.0621296,0.215616 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00204776,0.0012319,-3.69488e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.036949,0.0624768,0.215472 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0020929,-0.00127324,2.73008e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0733913,0.000226093,0.216107 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.81325e-05,-0.00248145,-7.47368e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0374067,-0.0627378,0.216991 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00205015,-0.00127949,-6.99628e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0375706,-0.063229,0.214504 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00218651,0.00136061,5.13942e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.994225,-0.00098184,0.223477 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.55127e-05,0.0119817,-5.63154e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496802,-0.859909,0.225644 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0102151,-0.00593928,-3.71279e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495698,-0.860318,0.225203 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102632,0.00589179,-7.08174e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.496398,0.862857,0.223702 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0103937,0.0059802,7.53533e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496848,0.859687,0.223174 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0103387,-0.00597115,2.64151e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.994431,0.000219487,0.222312 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -3.88453e-06,-0.0120078,-3.52973e-05 N.m. Finished calculating global parameters for time step 18 seconds. 0:16:07 877.6 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833291570831 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831013610253 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.830995569456 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831485564038 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834236559215 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833897347629 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833168493753 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833367272745 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832118545535 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833151622718 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.832849969937 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833178859354 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:16:07 874.8 MB After remeshing 0:16:29 852.8 MB Solving finite element problem. No. of tetrahedra = 1,288,124 No. of nodes = 224,081 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:16:29 750.5 MB No. of Edges = 1,514,270 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,259,521 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,493,668 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 244,683 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:16:36 836.5 MB No. of Non Zeros = 2,069,770 0:16:39 836.1 MB Allocating 8.279080 MB Allocating 16.558160 MB Allocating 16.558160 MB 0:16:41 875.7 MB Solving for time = 19 Matrix reordering found. 0:16:41 881.3 MB Matrix partitioned into sizes of 30,586 32,537 73,738 66,460 41,362 0 0 0 Non zeros in each block: 319,150 204,527 509,124 621,636 343,821 0 0 0 Matrix reordering applied. 0:16:42 881.3 MB Before matrix assembly 0:16:42 883.2 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.00447 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72678 After matrix assembly 0:16:44 885 MB Starting Cholesky decomposition. 0:16:44 901.9 MB Starting Conjugate Gradient. 0:16:44 901.9 MB CG tolerance 0.01% Newton 1:34 CG steps; change 23.7812%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.237812 0:16:44 883.1 MB Finished the step. 0:16:44 883.1 MB Before matrix assembly 0:16:44 883.1 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89136 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.72777 After matrix assembly 0:16:47 885 MB Starting Cholesky decomposition. 0:16:47 901.9 MB Starting Conjugate Gradient. 0:16:47 901.9 MB CG tolerance 0.01% Newton 2:104 CG steps; change 0.168362%, target 0.1% alpha = 1 RHS error = 0.00836064 Step error = 0.00168362 0:16:48 883.5 MB Finished the step. 0:16:48 883.5 MB Before matrix assembly 0:16:48 883.5 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89263 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74095 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.89237 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73837 After matrix assembly 0:16:52 885 MB Starting Cholesky decomposition. 0:16:52 901.9 MB Starting Conjugate Gradient. 0:16:52 901.9 MB CG tolerance 0.01% Newton 3:168 CG steps; change 0.00506079%, target 0.1% alpha = 0.799586 RHS error = 0.00186318 Step error = 5.06079e-05 0:16:54 883.5 MB Finished the step. 0:16:54 883.5 MB Global values for time = 19 seconds Instantaneous magnetic energy in the model = -8.71798 joules Instantaneous magnetic co - energy in the model = 8.80444 joules Instantaneous Ohmic loss = 5.92896e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 5.92126e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 5.92073e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 5.94493e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 5.93623e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 5.93525e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.134375 webers Instantaneous terminal voltage = 3.8333 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.134273 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.134176 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.134253 webers Instantaneous terminal voltage = 3.8315 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.134438 webers Instantaneous terminal voltage = 3.83424 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.13441 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.148726 webers Instantaneous terminal voltage = 3.83314 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.148688 webers Instantaneous terminal voltage = 3.83333 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.148761 webers Instantaneous terminal voltage = 3.83208 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.148558 webers Instantaneous terminal voltage = 3.83311 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.148797 webers Instantaneous terminal voltage = 3.83281 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.148853 webers Instantaneous terminal voltage = 3.83314 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.378502,0.0525746,-97.5416 N. Torque about the origin on body 1 is 0.00312801,-0.0206893,0.0179276 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.3296,-0.0446318,-70.825 N. Torque about the origin on body 2 is -0.0231838,0.10201,-0.00487308 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.07727,1.6987,161.575 N. Torque about the origin on body 3 is -0.0330759,0.096623,0.000261535 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.16535,1.93198,0.385192 N. Torque about the origin on body 4 is -0.110302,-0.0589197,-0.0205011 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -5.52823,-10.9044,-15.9705 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0632244,0.073873,-0.0187211 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -7.35356,9.88622,-15.4782 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.0943903,-0.0356249,-0.0428172 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.33593,-11.1882,-15.8351 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.0341716,-0.0217073,0.0181079 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 7.91283,13.3338,-15.7049 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0783306,0.0680478,0.0143047 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 11.0841,-0.621287,-15.5321 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0335864,-0.144078,0.0505191 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -12.9709,-0.55877,-15.6523 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0278061,0.0267799,-0.0307734 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.35885,-0.0138512,-72.1893 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0269078,0.102745,-0.00731473 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.14443,1.64203,161.077 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.033752,0.102208,-0.00486777 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.16535,1.93198,0.385192 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.110302,-0.0589197,-0.0205011 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.115671,0.003459,0.307749 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -0.000109516,0.000682534,0.000209095 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.051582,0.110878,0.298739 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00176317,-0.000108424,0.000603665 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0745408,0.0990343,0.328961 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.000779817,-0.000985893,0.000757078 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.135376,-0.0111256,0.317614 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.00100797,-0.00132171,0.000649348 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0652333,-0.12746,0.303693 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00260418,-0.000531069,0.000386375 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.069963,-0.121178,0.351124 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is -0.000237759,0.000250721,3.15133e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05904,0.015804,0.0275136 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000173813,0.0241755,0.000869684 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.512162,-0.918681,-0.0513573 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0246505,-0.0141853,0.000674713 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.517807,-0.917978,0.0268935 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0209917,0.012197,-0.000467647 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.455729,0.959555,-0.0411914 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0250469,0.0125922,0.00415629 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.542175,0.916233,0.0627728 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0195575,-0.0121183,0.000599922 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.04955,0.0151459,-0.0293095 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000219101,-0.027077,-0.000899231 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0723595,-0.00162469,0.214995 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.00011748,0.00248614,-9.38322e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0364842,0.0625806,0.215601 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.0020837,0.00125226,-3.521e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0372217,0.062961,0.215451 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00213129,-0.00129491,2.70727e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0739516,0.000230697,0.216087 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.84465e-05,-0.00252564,-7.72081e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0376634,-0.0631943,0.216979 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00208637,-0.00129992,-6.97347e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0378392,-0.0637041,0.214492 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00222388,0.00138179,5.12476e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.99435,-0.000953387,0.223193 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.49416e-05,0.011993,-5.52055e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.496918,-0.860124,0.225449 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0102242,-0.00594444,-3.69099e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495775,-0.860426,0.224918 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102732,0.00589779,-7.03453e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.496528,0.863108,0.223519 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0104032,0.00598537,7.57866e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.496921,0.859765,0.222883 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0103481,-0.00597709,2.72427e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.994541,0.000224348,0.222022 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -3.86634e-06,-0.0120189,-3.54314e-05 N.m. Finished calculating global parameters for time step 19 seconds. 0:16:57 879.1 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833298178314 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831021331889 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.831002685453 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.831496441815 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834243266348 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833899764164 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.833135873302 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833325558745 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.83208362178 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.8331132134 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.832814573884 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833141919427 volts. for Coil Coil 1 - Bottom(4). Before remeshing 0:16:57 876.3 MB After remeshing 0:17:19 859.4 MB Solving finite element problem. No. of tetrahedra = 1,297,711 No. of nodes = 225,765 No. of Unary Faces = 4,132 No. of Binary Faces = 0 0:17:19 758.5 MB No. of Edges = 1,525,541 No. of Unary Edges = 0 No. of Binary Edges = 0 No. of scalar tets = 1,269,108 No. of vector tets = 28,603 No. of void tets = 0 No. of scalar edges = 1,504,939 No. of vector edges = 20,602 No. of void edges = 0 No. of field nodes = 246,367 No. of Binary Fnodes(pairs) = 0 Starting sparsity pattern generation. 0:17:26 845.5 MB No. of Non Zeros = 2,082,725 0:17:28 845.1 MB Allocating 8.330900 MB Allocating 16.661800 MB Allocating 16.661800 MB 0:17:31 884.9 MB Solving for time = 20 Matrix reordering found. 0:17:31 890.6 MB Matrix partitioned into sizes of 30,797 33,090 73,877 67,140 41,463 0 0 0 Non zeros in each block: 320,394 208,475 511,995 625,802 344,554 0 0 0 Matrix reordering applied. 0:17:31 890.6 MB Before matrix assembly 0:17:31 892.5 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 5.03785 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73996 After matrix assembly 0:17:36 894.4 MB Starting Cholesky decomposition. 0:17:36 911.4 MB Starting Conjugate Gradient. 0:17:36 911.4 MB CG tolerance 0.01% Newton 1:35 CG steps; change 23.6196%, target 0.1% alpha = 1 RHS error = 1 Step error = 0.236196 0:17:37 892.5 MB Finished the step. 0:17:37 892.5 MB Before matrix assembly 0:17:37 892.5 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87596 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.73996 After matrix assembly 0:17:39 894.4 MB Starting Cholesky decomposition. 0:17:39 911.4 MB Starting Conjugate Gradient. 0:17:39 911.4 MB CG tolerance 0.01% Newton 2:104 CG steps; change 0.154622%, target 0.1% alpha = 1 RHS error = 0.0110532 Step error = 0.00154622 0:17:40 892.9 MB Finished the step. 0:17:40 892.9 MB Before matrix assembly 0:17:40 892.9 MB Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.8777 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74496 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87735 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74394 Interim estimate of maximum B in non-permeable, non-conducting fluid material = 2.87723 Interim estimate of maximum B in permeable, conducting or non-fluid material = 1.74362 After matrix assembly 0:17:46 894.4 MB Starting Cholesky decomposition. 0:17:46 911.4 MB Starting Conjugate Gradient. 0:17:47 911.4 MB CG tolerance 0.01% Newton 3:168 CG steps; change 0.00681735%, target 0.1% alpha = 0.730871 RHS error = 0.00136612 Step error = 6.81735e-05 0:17:48 892.9 MB Finished the step. 0:17:48 892.9 MB Global values for time = 20 seconds Instantaneous magnetic energy in the model = -8.71781 joules Instantaneous magnetic co - energy in the model = 8.70995 joules Instantaneous Ohmic loss = 5.53086e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Instantaneous Ohmic loss = 5.54485e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Instantaneous Ohmic loss = 5.5585e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Instantaneous Ohmic loss = 5.5431e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Instantaneous Ohmic loss = 5.56947e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Instantaneous Ohmic loss = 5.56812e-08 watts on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Instantaneous Ohmic loss = 3.84118 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Instantaneous Ohmic loss = 3.8389 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Instantaneous Ohmic loss = 3.83888 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Instantaneous Ohmic loss = 3.83938 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Instantaneous Ohmic loss = 3.84212 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Instantaneous Ohmic loss = 3.84178 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Instantaneous Ohmic loss = 3.84113 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Instantaneous Ohmic loss = 3.83986 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Instantaneous Ohmic loss = 3.84092 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Instantaneous Ohmic loss = 3.84058 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Instantaneous Ohmic loss = 3.84091 watts on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) For coil number 1: Coil 1 - Top Flux linkage = -0.142259 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84118 ohms For coil number 2: Coil 1 - Top(2) Flux linkage = -0.142151 webers Instantaneous terminal voltage = 3.83102 volts Current = 1 amps DC resistance = 3.8389 ohms For coil number 3: Coil 1 - Top(3) Flux linkage = -0.142053 webers Instantaneous terminal voltage = 3.831 volts Current = 1 amps DC resistance = 3.83888 ohms For coil number 4: Coil 1 - Top(4) Flux linkage = -0.142133 webers Instantaneous terminal voltage = 3.8315 volts Current = 1 amps DC resistance = 3.83938 ohms For coil number 5: Coil 1 - Top(5) Flux linkage = -0.142313 webers Instantaneous terminal voltage = 3.83425 volts Current = 1 amps DC resistance = 3.84212 ohms For coil number 6: Coil 1 - Top(6) Flux linkage = -0.142287 webers Instantaneous terminal voltage = 3.8339 volts Current = 1 amps DC resistance = 3.84178 ohms For coil number 7: Coil 1 - Bottom Flux linkage = 0.140891 webers Instantaneous terminal voltage = 3.83308 volts Current = 1 amps DC resistance = 3.84091 ohms For coil number 8: Coil 1 - Bottom(5) Flux linkage = 0.140845 webers Instantaneous terminal voltage = 3.83329 volts Current = 1 amps DC resistance = 3.84113 ohms For coil number 9: Coil 1 - Bottom(6) Flux linkage = 0.14092 webers Instantaneous terminal voltage = 3.83202 volts Current = 1 amps DC resistance = 3.83986 ohms For coil number 10: Coil 1 - Bottom(2) Flux linkage = 0.140713 webers Instantaneous terminal voltage = 3.83307 volts Current = 1 amps DC resistance = 3.84092 ohms For coil number 11: Coil 1 - Bottom(3) Flux linkage = 0.140952 webers Instantaneous terminal voltage = 3.83274 volts Current = 1 amps DC resistance = 3.84058 ohms For coil number 12: Coil 1 - Bottom(4) Flux linkage = 0.141014 webers Instantaneous terminal voltage = 3.83307 volts Current = 1 amps DC resistance = 3.84091 ohms All bodies have the same temperature values in degrees Celsius: Minimum = 20.00, Average = 20.00, Maximum = 20.00 Body 1 consists of the following components: Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) Linear Actuator Assembly_sim1,Virtual/3d_mesh(22) Force on body 1 is -0.174635,0.0251572,-95.5005 N. Torque about the origin on body 1 is -0.000555637,-0.0115004,0.0244566 N.m. Body 2 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) Force on body 2 is 1.30905,0.00951022,-70.6466 N. Torque about the origin on body 2 is -0.0293538,0.102192,-0.00486428 N.m. Body 3 consists of the following components: Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) Force on body 3 is 3.02774,1.6528,161.794 N. Torque about the origin on body 3 is -0.031078,0.0937732,0.000225316 N.m. Body 4 consists of the following components: Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) Force on body 4 is -1.16021,1.83694,-0.0482116 N. Torque about the origin on body 4 is -0.110521,-0.0604525,-0.0193985 N.m. Component force and torque when all interfaces are assembled type: Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -6.09491,-11.9252,-15.8985 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(1) is -0.0448549,0.0645616,-0.0180264 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is -7.93513,10.9103,-15.6088 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(2) is 0.082287,-0.0439909,-0.0420457 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is 6.93323,-12.2077,-15.9848 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(3) is -0.0195904,-0.0129958,0.0178849 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is 8.50305,14.3801,-15.736 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(4) is -0.0990746,0.0799321,0.0144389 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 12.2142,-0.590644,-15.7039 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(5) is 0.0321603,-0.132257,0.0496674 N.m. Force on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is -14.141,-0.57717,-15.7891 N. Torque about the origin on Linear Actuator Assembly_sim1,Magnets/3d_mesh(6) is 0.0290244,0.0117176,-0.0308618 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is 1.33749,0.0395965,-71.9633 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(7) is -0.0329898,0.103045,-0.00718482 N.m. Force on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is 3.09463,1.60046,161.174 N. Torque about the origin on Linear Actuator Assembly_sim1,Outer Cores/3d_mesh(8) is -0.0318102,0.0990933,-0.00488498 N.m. Force on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -1.16021,1.83694,-0.0482116 N. Torque about the origin on Linear Actuator Assembly_sim1,Inner Core/3d_mesh(9) is -0.110521,-0.0604525,-0.0193985 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.116277,0.0031989,0.30254 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is -9.52513e-05,0.00100195,0.000196304 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0519543,0.111288,0.290634 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00215838,0.000142845,0.000597436 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0738456,0.100085,0.320035 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is 0.000286654,-0.00115666,0.000698092 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.135927,-0.010687,0.308824 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is 0.000974743,-0.00182291,0.000626596 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0656422,-0.127846,0.295649 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00299446,-0.000779352,0.000377838 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0700476,-0.12174,0.342528 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00019146,0.000484076,1.97979e-05 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 1.05918,0.0142093,0.049785 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is -0.000124791,0.0230325,0.000786349 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.513068,-0.918455,-0.0254973 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0234882,-0.0135369,0.000623953 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.518378,-0.918005,0.0400454 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0204134,0.0118603,-0.000443649 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.456764,0.959286,-0.0192879 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0240704,0.0120363,0.00410045 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.542549,0.91626,0.0797445 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0188128,-0.0116517,0.000611413 N.m. Force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -1.0498,0.0124401,-0.00631293 N. Torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.000191926,-0.025902,-0.000761472 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.0729624,-0.00163076,0.214958 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(10) is 0.000117926,0.00253457,-9.39726e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is 0.0367427,0.0630442,0.215592 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(11) is -0.00212061,0.00127291,-3.19449e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.0374972,0.0634449,0.215432 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(12) is -0.00216992,-0.00131695,2.69092e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -0.0744931,0.000227405,0.21608 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(13) is -3.81929e-05,-0.00256845,-7.64826e-06 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is -0.0379227,-0.063665,0.216972 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(14) is 0.00212377,-0.00132063,-6.93157e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.0381034,-0.0641731,0.214483 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(15) is 0.00226105,0.00140277,5.10541e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 0.994572,-0.000919007,0.222985 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(16) is 2.42739e-05,0.0120035,-5.39127e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is -0.497051,-0.860385,0.225288 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(17) is 0.0102334,-0.00594943,-3.63627e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.495915,-0.860651,0.224728 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(18) is 0.0102824,0.00590337,-7.00764e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is 0.496664,0.863401,0.22336 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(19) is -0.0104131,0.00599039,7.68449e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.49706,0.859968,0.222707 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(20) is -0.0103564,-0.00598234,2.78985e-05 N.m. JxB force on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -0.994803,0.000220709,0.221845 N. JxB torque about the origin on Linear Actuator Assembly_sim1,Phase Windings/3d_mesh(21) is -3.77897e-06,-0.0120289,-3.52304e-05 N.m. Finished calculating global parameters for time step 20 seconds. 0:17:51 888.4 MB Current and voltage for all circuit components Current = 1 amps. Voltage = 3.833294505624 volts. for Coil Coil 1 - Top. Current = 1 amps. Voltage = 3.831020156285 volts. for Coil Coil 1 - Top(2). Current = 1 amps. Voltage = 3.83100194442 volts. for Coil Coil 1 - Top(3). Current = 1 amps. Voltage = 3.8314952345 volts. for Coil Coil 1 - Top(4). Current = 1 amps. Voltage = 3.834245623574 volts. for Coil Coil 1 - Top(5). Current = 1 amps. Voltage = 3.833901453336 volts. for Coil Coil 1 - Top(6). Current = 1 amps. Voltage = 3.83307521998 volts. for Coil Coil 1 - Bottom. Current = 1 amps. Voltage = 3.833286730899 volts. for Coil Coil 1 - Bottom(5). Current = 1 amps. Voltage = 3.832016132002 volts. for Coil Coil 1 - Bottom(6). Current = 1 amps. Voltage = 3.833074378791 volts. for Coil Coil 1 - Bottom(2). Current = 1 amps. Voltage = 3.832739108146 volts. for Coil Coil 1 - Bottom(3). Current = 1 amps. Voltage = 3.833072121367 volts. for Coil Coil 1 - Bottom(4). Problem 1 solve finished: 2024-04-11 18:27:01 (DI2BELVN0466WNB) 320.9 MB Finished solving. Saving the solution. Finished saving. Calculating result quantities. Finished calculating result quantities. Saving the calculated result quantities. Finished saving.