---------------------------------------------------------------------------- c a u c h y - b o r n c o n s t i t u t i v e m o d e l This program computes the finite deformation constitutive response of an arbitrary multilattice single crystal. The code is based on the local quasicontinuum (QC) method (http://qcmethod.org). The program uses interatomic potentials compatible with the Knowledgebase of Interatomic Models (KIM) project (https://openkim.org). Copyright (C) 2015 E. B. Tadmor ---------------------------------------------------------------------------- Test calculation: Lattice invariance shear of cubic crystal **setting factor** * Default globaltol set to 0.10000E-15 CG global tolerance = 0.10000E-15 **reading material data** Material name 'Cu(fcc)' * Warning: for a simple bravais lattice * Warning: ShuffleOn is reset to ShuffleOn = FALSE material information Bravais lattice vectors: a1 = 0.00000 2.00000 2.00000 a2 = 2.00000 0.00000 2.00000 a3 = 2.00000 2.00000 0.00000 Basis atoms: Number of basis atoms = 1 spec mass reference shift vector 29 1.00 0.00000 0.00000 0.00000 **reading constitutive information** * Error: at line 169 in mod_poten_kim.F90 Message: kim_api_string_init KIM_STATUS_MSG: unsuccessful completion * Error: at line 208 in mod_poten_kim.F90 Message: kim_api_string_init KIM_STATUS_MSG: unsuccessful completion KIM Model name: EMT_Asap_MetalGlass_CuMgZr__MO_655725647552_002 Match failed; removing process_d2Edr2 and trying again. Moduli calculation disabled. Preconditioning disabled in lattice parameter optimization. Match failed; removing process_dEdr and trying again. Maximum cut-off distance: 4.9840864151 **global parameter settings** Number of spatial dimensions = 3 Number of dofs per node = 3 Number of nodes per element = 4 Shuffles optimization = OFF Prefer multilattice stress correction = OFF Optimize F and shuffles concurrently = ACTIVATED Use preconditioned CG optimization = OFF **optimize lattice parameter** Input lattice vectors 0.0000000000000000 2.0000000000000000 2.0000000000000000 2.0000000000000000 0.0000000000000000 2.0000000000000000 2.0000000000000000 2.0000000000000000 0.0000000000000000 Relaxed lattice vectors 0.00000000000000000548 1.79640496570132346399 1.79640496570132346399 1.79640496570132346399 -0.00000000000000001039 1.79640496570132346399 1.79640496570132346399 1.79640496570132346399 0.00000000000000000033 **deform crystal** Method: fixed shifts Mode: multiple steps, nsteps = 100 Deformation gradient 0.50000000 -0.50000000 -0.50000000 0.50000000 1.50000000 0.50000000 0.00000000 0.00000000 1.00000000 *** step number: 0 *** Deformation gradient in current step 1.00000000 0.00000000 0.00000000 0.00000000 1.00000000 0.00000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3028816413 Kirchhoff stress -0.22442E-08 0.34412E-17 -0.10473E-17 0.34412E-17 -0.22442E-08 0.44886E-18 -0.10473E-17 0.44886E-18 -0.22442E-08 *** step number: 1 *** Deformation gradient in current step 0.99500000 -0.00500000 -0.00500000 0.00500000 1.00500000 0.00500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3028610428 Kirchhoff stress -0.15867E-02 -0.19955E-04 -0.26282E-02 -0.19955E-04 0.15689E-02 0.24540E-02 -0.26282E-02 0.24540E-02 -0.18613E-03 *** step number: 2 *** Deformation gradient in current step 0.99000000 -0.01000000 -0.01000000 0.01000000 1.01000000 0.01000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3027992963 Kirchhoff stress -0.31884E-02 -0.79999E-04 -0.54234E-02 -0.79999E-04 0.31175E-02 0.47268E-02 -0.54234E-02 0.47268E-02 -0.74390E-03 *** step number: 3 *** Deformation gradient in current step 0.98500000 -0.01500000 -0.01500000 0.01500000 1.01500000 0.01500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3026965479 Kirchhoff stress -0.48017E-02 -0.18069E-03 -0.83774E-02 -0.18069E-03 0.46440E-02 0.68122E-02 -0.83774E-02 0.68122E-02 -0.16714E-02 *** step number: 4 *** Deformation gradient in current step 0.98000000 -0.02000000 -0.02000000 0.02000000 1.02000000 0.02000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3025534387 Kirchhoff stress -0.63948E-02 -0.32189E-03 -0.11453E-01 -0.32189E-03 0.61475E-02 0.87060E-02 -0.11453E-01 0.87060E-02 -0.29352E-02 *** step number: 5 *** Deformation gradient in current step 0.97500000 -0.02500000 -0.02500000 0.02500000 1.02500000 0.02500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3023698983 Kirchhoff stress -0.79925E-02 -0.50579E-03 -0.14671E-01 -0.50579E-03 0.76282E-02 0.10403E-01 -0.14671E-01 0.10403E-01 -0.45609E-02 *** step number: 6 *** Deformation gradient in current step 0.97000000 -0.03000000 -0.03000000 0.03000000 1.03000000 0.03000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3021467135 Kirchhoff stress -0.95644E-02 -0.73328E-03 -0.17997E-01 -0.73328E-03 0.90885E-02 0.11902E-01 -0.17997E-01 0.11902E-01 -0.65138E-02 *** step number: 7 *** Deformation gradient in current step 0.96500000 -0.03500000 -0.03500000 0.03500000 1.03500000 0.03500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3018846822 Kirchhoff stress -0.11085E-01 -0.10059E-02 -0.21401E-01 -0.10059E-02 0.10534E-01 0.13205E-01 -0.21401E-01 0.13205E-01 -0.87618E-02 *** step number: 8 *** Deformation gradient in current step 0.96000000 -0.04000000 -0.04000000 0.04000000 1.04000000 0.04000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3015848765 Kirchhoff stress -0.12516E-01 -0.13252E-02 -0.24839E-01 -0.13252E-02 0.11977E-01 0.14318E-01 -0.24839E-01 0.14318E-01 -0.11255E-01 *** step number: 9 *** Deformation gradient in current step 0.95500000 -0.04500000 -0.04500000 0.04500000 1.04500000 0.04500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3012487103 Kirchhoff stress -0.13805E-01 -0.16936E-02 -0.28257E-01 -0.16936E-02 0.13438E-01 0.15256E-01 -0.28257E-01 0.15256E-01 -0.13922E-01 *** step number: 10 *** Deformation gradient in current step 0.95000000 -0.05000000 -0.05000000 0.05000000 1.05000000 0.05000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3008779379 Kirchhoff stress -0.14893E-01 -0.21156E-02 -0.31597E-01 -0.21156E-02 0.14953E-01 0.16045E-01 -0.31597E-01 0.16045E-01 -0.16680E-01 *** step number: 11 *** Deformation gradient in current step 0.94500000 -0.05500000 -0.05500000 0.05500000 1.05500000 0.05500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3004744108 Kirchhoff stress -0.15747E-01 -0.26034E-02 -0.34834E-01 -0.26034E-02 0.16578E-01 0.16719E-01 -0.34834E-01 0.16719E-01 -0.19472E-01 *** step number: 12 *** Deformation gradient in current step 0.94000000 -0.06000000 -0.06000000 0.06000000 1.06000000 0.06000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3000393633 Kirchhoff stress -0.16413E-01 -0.31839E-02 -0.38044E-01 -0.31839E-02 0.18389E-01 0.17309E-01 -0.38044E-01 0.17309E-01 -0.22344E-01 *** step number: 13 *** Deformation gradient in current step 0.93500000 -0.06500000 -0.06500000 0.06500000 1.06500000 0.06500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2995722930 Kirchhoff stress -0.17050E-01 -0.38959E-02 -0.41428E-01 -0.38959E-02 0.20465E-01 0.17829E-01 -0.41428E-01 0.17829E-01 -0.25491E-01 *** step number: 14 *** Deformation gradient in current step 0.93000000 -0.07000000 -0.07000000 0.07000000 1.07000000 0.07000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2990703502 Kirchhoff stress -0.17864E-01 -0.47507E-02 -0.45212E-01 -0.47507E-02 0.22825E-01 0.18247E-01 -0.45212E-01 0.18247E-01 -0.29178E-01 *** step number: 15 *** Deformation gradient in current step 0.92500000 -0.07500000 -0.07500000 0.07500000 1.07500000 0.07500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2985296198 Kirchhoff stress -0.18979E-01 -0.56557E-02 -0.49442E-01 -0.56557E-02 0.25328E-01 0.18469E-01 -0.49442E-01 0.18469E-01 -0.33552E-01 *** step number: 16 *** Deformation gradient in current step 0.92000000 -0.08000000 -0.08000000 0.08000000 1.08000000 0.08000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2979481980 Kirchhoff stress -0.20398E-01 -0.63990E-02 -0.53913E-01 -0.63990E-02 0.27618E-01 0.18337E-01 -0.53913E-01 0.18337E-01 -0.38557E-01 *** step number: 17 *** Deformation gradient in current step 0.91500000 -0.08500000 -0.08500000 0.08500000 1.08500000 0.08500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2973285374 Kirchhoff stress -0.22045E-01 -0.68269E-02 -0.58361E-01 -0.68269E-02 0.29277E-01 0.17698E-01 -0.58361E-01 0.17698E-01 -0.44023E-01 *** step number: 18 *** Deformation gradient in current step 0.91000000 -0.09000000 -0.09000000 0.09000000 1.09000000 0.09000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2966769104 Kirchhoff stress -0.23777E-01 -0.70873E-02 -0.62702E-01 -0.70873E-02 0.30039E-01 0.16480E-01 -0.62702E-01 0.16480E-01 -0.49776E-01 *** step number: 19 *** Deformation gradient in current step 0.90500000 -0.09500000 -0.09500000 0.09500000 1.09500000 0.09500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2960013577 Kirchhoff stress -0.25432E-01 -0.75546E-02 -0.67027E-01 -0.75546E-02 0.29802E-01 0.14686E-01 -0.67027E-01 0.14686E-01 -0.55708E-01 *** step number: 20 *** Deformation gradient in current step 0.90000000 -0.10000000 -0.10000000 0.10000000 1.10000000 0.10000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2953099284 Kirchhoff stress -0.26894E-01 -0.84491E-02 -0.71398E-01 -0.84491E-02 0.28730E-01 0.12403E-01 -0.71398E-01 0.12403E-01 -0.61761E-01 *** step number: 21 *** Deformation gradient in current step 0.89500000 -0.10500000 -0.10500000 0.10500000 1.10500000 0.10500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2946084658 Kirchhoff stress -0.28121E-01 -0.96578E-02 -0.75732E-01 -0.96578E-02 0.27389E-01 0.98477E-02 -0.75732E-01 0.98477E-02 -0.67896E-01 *** step number: 22 *** Deformation gradient in current step 0.89000000 -0.11000000 -0.11000000 0.11000000 1.11000000 0.11000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2938993225 Kirchhoff stress -0.29148E-01 -0.10932E-01 -0.79868E-01 -0.10932E-01 0.26348E-01 0.71948E-02 -0.79868E-01 0.71948E-02 -0.74142E-01 *** step number: 23 *** Deformation gradient in current step 0.88500000 -0.11500000 -0.11500000 0.11500000 1.11500000 0.11500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2931835389 Kirchhoff stress -0.29994E-01 -0.12089E-01 -0.83646E-01 -0.12089E-01 0.25768E-01 0.44410E-02 -0.83646E-01 0.44410E-02 -0.80601E-01 *** step number: 24 *** Deformation gradient in current step 0.88000000 -0.12000000 -0.12000000 0.12000000 1.12000000 0.12000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2924617064 Kirchhoff stress -0.30781E-01 -0.13083E-01 -0.87027E-01 -0.13083E-01 0.25505E-01 0.14850E-02 -0.87027E-01 0.14850E-02 -0.87365E-01 *** step number: 25 *** Deformation gradient in current step 0.87500000 -0.12500000 -0.12500000 0.12500000 1.12500000 0.12500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2917365752 Kirchhoff stress -0.31450E-01 -0.13927E-01 -0.90015E-01 -0.13927E-01 0.25391E-01 -0.17122E-02 -0.90015E-01 -0.17122E-02 -0.94383E-01 *** step number: 26 *** Deformation gradient in current step 0.87000000 -0.13000000 -0.13000000 0.13000000 1.13000000 0.13000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2910114067 Kirchhoff stress -0.31884E-01 -0.14674E-01 -0.92676E-01 -0.14674E-01 0.25346E-01 -0.50997E-02 -0.92676E-01 -0.50997E-02 -0.10148E+00 *** step number: 27 *** Deformation gradient in current step 0.86500000 -0.13500000 -0.13500000 0.13500000 1.13500000 0.13500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2902895301 Kirchhoff stress -0.31909E-01 -0.15350E-01 -0.95051E-01 -0.15350E-01 0.25344E-01 -0.85936E-02 -0.95051E-01 -0.85936E-02 -0.10846E+00 *** step number: 28 *** Deformation gradient in current step 0.86000000 -0.14000000 -0.14000000 0.14000000 1.14000000 0.14000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2895750749 Kirchhoff stress -0.31326E-01 -0.15987E-01 -0.97150E-01 -0.15987E-01 0.25421E-01 -0.12104E-01 -0.97150E-01 -0.12104E-01 -0.11515E+00 *** step number: 29 *** Deformation gradient in current step 0.85500000 -0.14500000 -0.14500000 0.14500000 1.14500000 0.14500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2888725079 Kirchhoff stress -0.30097E-01 -0.16538E-01 -0.98949E-01 -0.16538E-01 0.25637E-01 -0.15574E-01 -0.98949E-01 -0.15574E-01 -0.12148E+00 *** step number: 30 *** Deformation gradient in current step 0.85000000 -0.15000000 -0.15000000 0.15000000 1.15000000 0.15000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2881847534 Kirchhoff stress -0.28534E-01 -0.17064E-01 -0.10055E+00 -0.17064E-01 0.25931E-01 -0.19036E-01 -0.10055E+00 -0.19036E-01 -0.12748E+00 *** step number: 31 *** Deformation gradient in current step 0.84500000 -0.15500000 -0.15500000 0.15500000 1.15500000 0.15500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2875119993 Kirchhoff stress -0.27323E-01 -0.17716E-01 -0.10221E+00 -0.17716E-01 0.26271E-01 -0.22548E-01 -0.10221E+00 -0.22548E-01 -0.13324E+00 *** step number: 32 *** Deformation gradient in current step 0.84000000 -0.16000000 -0.16000000 0.16000000 1.16000000 0.16000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2868511347 Kirchhoff stress -0.26873E-01 -0.18645E-01 -0.10410E+00 -0.18645E-01 0.26616E-01 -0.26161E-01 -0.10410E+00 -0.26161E-01 -0.13886E+00 *** step number: 33 *** Deformation gradient in current step 0.83500000 -0.16500000 -0.16500000 0.16500000 1.16500000 0.16500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2861970516 Kirchhoff stress -0.27083E-01 -0.19792E-01 -0.10611E+00 -0.19792E-01 0.26926E-01 -0.29871E-01 -0.10611E+00 -0.29871E-01 -0.14432E+00 *** step number: 34 *** Deformation gradient in current step 0.83000000 -0.17000000 -0.17000000 0.17000000 1.17000000 0.17000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2855491631 Kirchhoff stress -0.27328E-01 -0.21048E-01 -0.10800E+00 -0.21048E-01 0.27137E-01 -0.33669E-01 -0.10800E+00 -0.33669E-01 -0.14961E+00 *** step number: 35 *** Deformation gradient in current step 0.82500000 -0.17500000 -0.17500000 0.17500000 1.17500000 0.17500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2849109460 Kirchhoff stress -0.27188E-01 -0.22343E-01 -0.10961E+00 -0.22343E-01 0.27090E-01 -0.37630E-01 -0.10961E+00 -0.37630E-01 -0.15484E+00 *** step number: 36 *** Deformation gradient in current step 0.82000000 -0.18000000 -0.18000000 0.18000000 1.18000000 0.18000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2842890027 Kirchhoff stress -0.26506E-01 -0.23677E-01 -0.11088E+00 -0.23677E-01 0.26538E-01 -0.41908E-01 -0.11088E+00 -0.41908E-01 -0.16024E+00 *** step number: 37 *** Deformation gradient in current step 0.81500000 -0.18500000 -0.18500000 0.18500000 1.18500000 0.18500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2836934513 Kirchhoff stress -0.25184E-01 -0.25121E-01 -0.11186E+00 -0.25121E-01 0.25345E-01 -0.46513E-01 -0.11186E+00 -0.46513E-01 -0.16584E+00 *** step number: 38 *** Deformation gradient in current step 0.81000000 -0.19000000 -0.19000000 0.19000000 1.19000000 0.19000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2831333817 Kirchhoff stress -0.23204E-01 -0.26670E-01 -0.11249E+00 -0.26670E-01 0.23524E-01 -0.51337E-01 -0.11249E+00 -0.51337E-01 -0.17154E+00 *** step number: 39 *** Deformation gradient in current step 0.80500000 -0.19500000 -0.19500000 0.19500000 1.19500000 0.19500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2826168872 Kirchhoff stress -0.20628E-01 -0.28287E-01 -0.11276E+00 -0.28287E-01 0.21276E-01 -0.56119E-01 -0.11276E+00 -0.56119E-01 -0.17705E+00 *** step number: 40 *** Deformation gradient in current step 0.80000000 -0.20000000 -0.20000000 0.20000000 1.20000000 0.20000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2821489116 Kirchhoff stress -0.17781E-01 -0.29867E-01 -0.11267E+00 -0.29867E-01 0.18813E-01 -0.60658E-01 -0.11267E+00 -0.60658E-01 -0.18210E+00 *** step number: 41 *** Deformation gradient in current step 0.79500000 -0.20500000 -0.20500000 0.20500000 1.20500000 0.20500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2817304794 Kirchhoff stress -0.15262E-01 -0.31251E-01 -0.11223E+00 -0.31251E-01 0.16266E-01 -0.64903E-01 -0.11223E+00 -0.64903E-01 -0.18660E+00 *** step number: 42 *** Deformation gradient in current step 0.79000000 -0.21000000 -0.21000000 0.21000000 1.21000000 0.21000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2813590557 Kirchhoff stress -0.13575E-01 -0.32316E-01 -0.11147E+00 -0.32316E-01 0.13700E-01 -0.68897E-01 -0.11147E+00 -0.68897E-01 -0.19054E+00 *** step number: 43 *** Deformation gradient in current step 0.78500000 -0.21500000 -0.21500000 0.21500000 1.21500000 0.21500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2810307284 Kirchhoff stress -0.12688E-01 -0.33067E-01 -0.11042E+00 -0.33067E-01 0.11166E-01 -0.72709E-01 -0.11042E+00 -0.72709E-01 -0.19396E+00 *** step number: 44 *** Deformation gradient in current step 0.78000000 -0.22000000 -0.22000000 0.22000000 1.22000000 0.22000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2807429394 Kirchhoff stress -0.12140E-01 -0.33606E-01 -0.10910E+00 -0.33606E-01 0.87082E-02 -0.76393E-01 -0.10910E+00 -0.76393E-01 -0.19689E+00 *** step number: 45 *** Deformation gradient in current step 0.77500000 -0.22500000 -0.22500000 0.22500000 1.22500000 0.22500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2804954869 Kirchhoff stress -0.11492E-01 -0.34033E-01 -0.10751E+00 -0.34033E-01 0.63522E-02 -0.79973E-01 -0.10751E+00 -0.79973E-01 -0.19935E+00 *** step number: 46 *** Deformation gradient in current step 0.77000000 -0.23000000 -0.23000000 0.23000000 1.23000000 0.23000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2802902606 Kirchhoff stress -0.10481E-01 -0.34382E-01 -0.10569E+00 -0.34382E-01 0.41008E-02 -0.83456E-01 -0.10569E+00 -0.83456E-01 -0.20135E+00 *** step number: 47 *** Deformation gradient in current step 0.76500000 -0.23500000 -0.23500000 0.23500000 1.23500000 0.23500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2801280527 Kirchhoff stress -0.91974E-02 -0.34676E-01 -0.10362E+00 -0.34676E-01 0.19249E-02 -0.86838E-01 -0.10362E+00 -0.86838E-01 -0.20292E+00 *** step number: 48 *** Deformation gradient in current step 0.76000000 -0.24000000 -0.24000000 0.24000000 1.24000000 0.24000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2800113026 Kirchhoff stress -0.76610E-02 -0.34897E-01 -0.10132E+00 -0.34897E-01 -0.15211E-03 -0.90068E-01 -0.10132E+00 -0.90068E-01 -0.20403E+00 *** step number: 49 *** Deformation gradient in current step 0.75500000 -0.24500000 -0.24500000 0.24500000 1.24500000 0.24500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2799407969 Kirchhoff stress -0.59429E-02 -0.35035E-01 -0.98793E-01 -0.35035E-01 -0.21616E-02 -0.93151E-01 -0.98793E-01 -0.93151E-01 -0.20469E+00 *** step number: 50 *** Deformation gradient in current step 0.75000000 -0.25000000 -0.25000000 0.25000000 1.25000000 0.25000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2799172208 Kirchhoff stress -0.40980E-02 -0.35081E-01 -0.96066E-01 -0.35081E-01 -0.40980E-02 -0.96066E-01 -0.96066E-01 -0.96066E-01 -0.20491E+00 *** step number: 51 *** Deformation gradient in current step 0.74500000 -0.25500000 -0.25500000 0.25500000 1.25500000 0.25500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2799407969 Kirchhoff stress -0.21616E-02 -0.35035E-01 -0.93151E-01 -0.35035E-01 -0.59429E-02 -0.98793E-01 -0.93151E-01 -0.98793E-01 -0.20469E+00 *** step number: 52 *** Deformation gradient in current step 0.74000000 -0.26000000 -0.26000000 0.26000000 1.26000000 0.26000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2800113026 Kirchhoff stress -0.15211E-03 -0.34897E-01 -0.90068E-01 -0.34897E-01 -0.76610E-02 -0.10132E+00 -0.90068E-01 -0.10132E+00 -0.20403E+00 *** step number: 53 *** Deformation gradient in current step 0.73500000 -0.26500000 -0.26500000 0.26500000 1.26500000 0.26500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2801280527 Kirchhoff stress 0.19249E-02 -0.34676E-01 -0.86838E-01 -0.34676E-01 -0.91974E-02 -0.10362E+00 -0.86838E-01 -0.10362E+00 -0.20292E+00 *** step number: 54 *** Deformation gradient in current step 0.73000000 -0.27000000 -0.27000000 0.27000000 1.27000000 0.27000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2802902606 Kirchhoff stress 0.41008E-02 -0.34382E-01 -0.83456E-01 -0.34382E-01 -0.10481E-01 -0.10569E+00 -0.83456E-01 -0.10569E+00 -0.20135E+00 *** step number: 55 *** Deformation gradient in current step 0.72500000 -0.27500000 -0.27500000 0.27500000 1.27500000 0.27500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2804954869 Kirchhoff stress 0.63522E-02 -0.34033E-01 -0.79973E-01 -0.34033E-01 -0.11492E-01 -0.10751E+00 -0.79973E-01 -0.10751E+00 -0.19935E+00 *** step number: 56 *** Deformation gradient in current step 0.72000000 -0.28000000 -0.28000000 0.28000000 1.28000000 0.28000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2807429394 Kirchhoff stress 0.87082E-02 -0.33606E-01 -0.76393E-01 -0.33606E-01 -0.12140E-01 -0.10910E+00 -0.76393E-01 -0.10910E+00 -0.19689E+00 *** step number: 57 *** Deformation gradient in current step 0.71500000 -0.28500000 -0.28500000 0.28500000 1.28500000 0.28500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2810307284 Kirchhoff stress 0.11166E-01 -0.33067E-01 -0.72709E-01 -0.33067E-01 -0.12688E-01 -0.11042E+00 -0.72709E-01 -0.11042E+00 -0.19396E+00 *** step number: 58 *** Deformation gradient in current step 0.71000000 -0.29000000 -0.29000000 0.29000000 1.29000000 0.29000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2813590557 Kirchhoff stress 0.13700E-01 -0.32316E-01 -0.68897E-01 -0.32316E-01 -0.13575E-01 -0.11147E+00 -0.68897E-01 -0.11147E+00 -0.19054E+00 *** step number: 59 *** Deformation gradient in current step 0.70500000 -0.29500000 -0.29500000 0.29500000 1.29500000 0.29500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2817304794 Kirchhoff stress 0.16266E-01 -0.31251E-01 -0.64903E-01 -0.31251E-01 -0.15262E-01 -0.11223E+00 -0.64903E-01 -0.11223E+00 -0.18660E+00 *** step number: 60 *** Deformation gradient in current step 0.70000000 -0.30000000 -0.30000000 0.30000000 1.30000000 0.30000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2821489116 Kirchhoff stress 0.18813E-01 -0.29867E-01 -0.60658E-01 -0.29867E-01 -0.17781E-01 -0.11267E+00 -0.60658E-01 -0.11267E+00 -0.18210E+00 *** step number: 61 *** Deformation gradient in current step 0.69500000 -0.30500000 -0.30500000 0.30500000 1.30500000 0.30500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2826168872 Kirchhoff stress 0.21276E-01 -0.28287E-01 -0.56119E-01 -0.28287E-01 -0.20628E-01 -0.11276E+00 -0.56119E-01 -0.11276E+00 -0.17705E+00 *** step number: 62 *** Deformation gradient in current step 0.69000000 -0.31000000 -0.31000000 0.31000000 1.31000000 0.31000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2831333817 Kirchhoff stress 0.23524E-01 -0.26670E-01 -0.51337E-01 -0.26670E-01 -0.23204E-01 -0.11249E+00 -0.51337E-01 -0.11249E+00 -0.17154E+00 *** step number: 63 *** Deformation gradient in current step 0.68500000 -0.31500000 -0.31500000 0.31500000 1.31500000 0.31500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2836934513 Kirchhoff stress 0.25345E-01 -0.25121E-01 -0.46513E-01 -0.25121E-01 -0.25184E-01 -0.11186E+00 -0.46513E-01 -0.11186E+00 -0.16584E+00 *** step number: 64 *** Deformation gradient in current step 0.68000000 -0.32000000 -0.32000000 0.32000000 1.32000000 0.32000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2842890027 Kirchhoff stress 0.26538E-01 -0.23677E-01 -0.41908E-01 -0.23677E-01 -0.26506E-01 -0.11088E+00 -0.41908E-01 -0.11088E+00 -0.16024E+00 *** step number: 65 *** Deformation gradient in current step 0.67500000 -0.32500000 -0.32500000 0.32500000 1.32500000 0.32500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2849109460 Kirchhoff stress 0.27090E-01 -0.22343E-01 -0.37630E-01 -0.22343E-01 -0.27188E-01 -0.10961E+00 -0.37630E-01 -0.10961E+00 -0.15484E+00 *** step number: 66 *** Deformation gradient in current step 0.67000000 -0.33000000 -0.33000000 0.33000000 1.33000000 0.33000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2855491631 Kirchhoff stress 0.27137E-01 -0.21048E-01 -0.33669E-01 -0.21048E-01 -0.27328E-01 -0.10800E+00 -0.33669E-01 -0.10800E+00 -0.14961E+00 *** step number: 67 *** Deformation gradient in current step 0.66500000 -0.33500000 -0.33500000 0.33500000 1.33500000 0.33500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2861970516 Kirchhoff stress 0.26926E-01 -0.19792E-01 -0.29871E-01 -0.19792E-01 -0.27083E-01 -0.10611E+00 -0.29871E-01 -0.10611E+00 -0.14432E+00 *** step number: 68 *** Deformation gradient in current step 0.66000000 -0.34000000 -0.34000000 0.34000000 1.34000000 0.34000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2868511347 Kirchhoff stress 0.26616E-01 -0.18645E-01 -0.26161E-01 -0.18645E-01 -0.26873E-01 -0.10410E+00 -0.26161E-01 -0.10410E+00 -0.13886E+00 *** step number: 69 *** Deformation gradient in current step 0.65500000 -0.34500000 -0.34500000 0.34500000 1.34500000 0.34500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2875119993 Kirchhoff stress 0.26271E-01 -0.17716E-01 -0.22548E-01 -0.17716E-01 -0.27323E-01 -0.10221E+00 -0.22548E-01 -0.10221E+00 -0.13324E+00 *** step number: 70 *** Deformation gradient in current step 0.65000000 -0.35000000 -0.35000000 0.35000000 1.35000000 0.35000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2881847534 Kirchhoff stress 0.25931E-01 -0.17064E-01 -0.19036E-01 -0.17064E-01 -0.28534E-01 -0.10055E+00 -0.19036E-01 -0.10055E+00 -0.12748E+00 *** step number: 71 *** Deformation gradient in current step 0.64500000 -0.35500000 -0.35500000 0.35500000 1.35500000 0.35500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2888725079 Kirchhoff stress 0.25637E-01 -0.16538E-01 -0.15574E-01 -0.16538E-01 -0.30097E-01 -0.98949E-01 -0.15574E-01 -0.98949E-01 -0.12148E+00 *** step number: 72 *** Deformation gradient in current step 0.64000000 -0.36000000 -0.36000000 0.36000000 1.36000000 0.36000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2895750749 Kirchhoff stress 0.25421E-01 -0.15987E-01 -0.12104E-01 -0.15987E-01 -0.31326E-01 -0.97150E-01 -0.12104E-01 -0.97150E-01 -0.11515E+00 *** step number: 73 *** Deformation gradient in current step 0.63500000 -0.36500000 -0.36500000 0.36500000 1.36500000 0.36500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2902895301 Kirchhoff stress 0.25344E-01 -0.15350E-01 -0.85936E-02 -0.15350E-01 -0.31909E-01 -0.95051E-01 -0.85936E-02 -0.95051E-01 -0.10846E+00 *** step number: 74 *** Deformation gradient in current step 0.63000000 -0.37000000 -0.37000000 0.37000000 1.37000000 0.37000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2910114067 Kirchhoff stress 0.25346E-01 -0.14674E-01 -0.50997E-02 -0.14674E-01 -0.31884E-01 -0.92676E-01 -0.50997E-02 -0.92676E-01 -0.10148E+00 *** step number: 75 *** Deformation gradient in current step 0.62500000 -0.37500000 -0.37500000 0.37500000 1.37500000 0.37500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2917365752 Kirchhoff stress 0.25391E-01 -0.13927E-01 -0.17122E-02 -0.13927E-01 -0.31450E-01 -0.90015E-01 -0.17122E-02 -0.90015E-01 -0.94383E-01 *** step number: 76 *** Deformation gradient in current step 0.62000000 -0.38000000 -0.38000000 0.38000000 1.38000000 0.38000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2924617064 Kirchhoff stress 0.25505E-01 -0.13083E-01 0.14850E-02 -0.13083E-01 -0.30781E-01 -0.87027E-01 0.14850E-02 -0.87027E-01 -0.87365E-01 *** step number: 77 *** Deformation gradient in current step 0.61500000 -0.38500000 -0.38500000 0.38500000 1.38500000 0.38500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2931835389 Kirchhoff stress 0.25768E-01 -0.12089E-01 0.44410E-02 -0.12089E-01 -0.29994E-01 -0.83646E-01 0.44410E-02 -0.83646E-01 -0.80601E-01 *** step number: 78 *** Deformation gradient in current step 0.61000000 -0.39000000 -0.39000000 0.39000000 1.39000000 0.39000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2938993225 Kirchhoff stress 0.26348E-01 -0.10932E-01 0.71948E-02 -0.10932E-01 -0.29148E-01 -0.79868E-01 0.71948E-02 -0.79868E-01 -0.74142E-01 *** step number: 79 *** Deformation gradient in current step 0.60500000 -0.39500000 -0.39500000 0.39500000 1.39500000 0.39500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2946084658 Kirchhoff stress 0.27389E-01 -0.96578E-02 0.98477E-02 -0.96578E-02 -0.28121E-01 -0.75732E-01 0.98477E-02 -0.75732E-01 -0.67896E-01 *** step number: 80 *** Deformation gradient in current step 0.60000000 -0.40000000 -0.40000000 0.40000000 1.40000000 0.40000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2953099284 Kirchhoff stress 0.28730E-01 -0.84491E-02 0.12403E-01 -0.84491E-02 -0.26894E-01 -0.71398E-01 0.12403E-01 -0.71398E-01 -0.61761E-01 *** step number: 81 *** Deformation gradient in current step 0.59500000 -0.40500000 -0.40500000 0.40500000 1.40500000 0.40500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2960013577 Kirchhoff stress 0.29802E-01 -0.75546E-02 0.14686E-01 -0.75546E-02 -0.25432E-01 -0.67027E-01 0.14686E-01 -0.67027E-01 -0.55708E-01 *** step number: 82 *** Deformation gradient in current step 0.59000000 -0.41000000 -0.41000000 0.41000000 1.41000000 0.41000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2966769104 Kirchhoff stress 0.30039E-01 -0.70873E-02 0.16480E-01 -0.70873E-02 -0.23777E-01 -0.62702E-01 0.16480E-01 -0.62702E-01 -0.49776E-01 *** step number: 83 *** Deformation gradient in current step 0.58500000 -0.41500000 -0.41500000 0.41500000 1.41500000 0.41500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2973285374 Kirchhoff stress 0.29277E-01 -0.68269E-02 0.17698E-01 -0.68269E-02 -0.22045E-01 -0.58361E-01 0.17698E-01 -0.58361E-01 -0.44023E-01 *** step number: 84 *** Deformation gradient in current step 0.58000000 -0.42000000 -0.42000000 0.42000000 1.42000000 0.42000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2979481980 Kirchhoff stress 0.27618E-01 -0.63990E-02 0.18337E-01 -0.63990E-02 -0.20398E-01 -0.53913E-01 0.18337E-01 -0.53913E-01 -0.38557E-01 *** step number: 85 *** Deformation gradient in current step 0.57500000 -0.42500000 -0.42500000 0.42500000 1.42500000 0.42500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2985296198 Kirchhoff stress 0.25328E-01 -0.56557E-02 0.18469E-01 -0.56557E-02 -0.18979E-01 -0.49442E-01 0.18469E-01 -0.49442E-01 -0.33552E-01 *** step number: 86 *** Deformation gradient in current step 0.57000000 -0.43000000 -0.43000000 0.43000000 1.43000000 0.43000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2990703502 Kirchhoff stress 0.22825E-01 -0.47507E-02 0.18247E-01 -0.47507E-02 -0.17864E-01 -0.45212E-01 0.18247E-01 -0.45212E-01 -0.29178E-01 *** step number: 87 *** Deformation gradient in current step 0.56500000 -0.43500000 -0.43500000 0.43500000 1.43500000 0.43500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.2995722930 Kirchhoff stress 0.20465E-01 -0.38959E-02 0.17829E-01 -0.38959E-02 -0.17050E-01 -0.41428E-01 0.17829E-01 -0.41428E-01 -0.25491E-01 *** step number: 88 *** Deformation gradient in current step 0.56000000 -0.44000000 -0.44000000 0.44000000 1.44000000 0.44000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3000393633 Kirchhoff stress 0.18389E-01 -0.31839E-02 0.17309E-01 -0.31839E-02 -0.16413E-01 -0.38044E-01 0.17309E-01 -0.38044E-01 -0.22344E-01 *** step number: 89 *** Deformation gradient in current step 0.55500000 -0.44500000 -0.44500000 0.44500000 1.44500000 0.44500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3004744108 Kirchhoff stress 0.16578E-01 -0.26034E-02 0.16719E-01 -0.26034E-02 -0.15747E-01 -0.34834E-01 0.16719E-01 -0.34834E-01 -0.19472E-01 *** step number: 90 *** Deformation gradient in current step 0.55000000 -0.45000000 -0.45000000 0.45000000 1.45000000 0.45000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3008779379 Kirchhoff stress 0.14953E-01 -0.21156E-02 0.16045E-01 -0.21156E-02 -0.14893E-01 -0.31597E-01 0.16045E-01 -0.31597E-01 -0.16680E-01 *** step number: 91 *** Deformation gradient in current step 0.54500000 -0.45500000 -0.45500000 0.45500000 1.45500000 0.45500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3012487103 Kirchhoff stress 0.13438E-01 -0.16936E-02 0.15256E-01 -0.16936E-02 -0.13805E-01 -0.28257E-01 0.15256E-01 -0.28257E-01 -0.13922E-01 *** step number: 92 *** Deformation gradient in current step 0.54000000 -0.46000000 -0.46000000 0.46000000 1.46000000 0.46000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3015848765 Kirchhoff stress 0.11977E-01 -0.13252E-02 0.14318E-01 -0.13252E-02 -0.12516E-01 -0.24839E-01 0.14318E-01 -0.24839E-01 -0.11255E-01 *** step number: 93 *** Deformation gradient in current step 0.53500000 -0.46500000 -0.46500000 0.46500000 1.46500000 0.46500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3018846822 Kirchhoff stress 0.10534E-01 -0.10059E-02 0.13205E-01 -0.10059E-02 -0.11085E-01 -0.21401E-01 0.13205E-01 -0.21401E-01 -0.87618E-02 *** step number: 94 *** Deformation gradient in current step 0.53000000 -0.47000000 -0.47000000 0.47000000 1.47000000 0.47000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3021467135 Kirchhoff stress 0.90885E-02 -0.73328E-03 0.11902E-01 -0.73328E-03 -0.95644E-02 -0.17997E-01 0.11902E-01 -0.17997E-01 -0.65138E-02 *** step number: 95 *** Deformation gradient in current step 0.52500000 -0.47500000 -0.47500000 0.47500000 1.47500000 0.47500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3023698983 Kirchhoff stress 0.76282E-02 -0.50579E-03 0.10403E-01 -0.50579E-03 -0.79925E-02 -0.14671E-01 0.10403E-01 -0.14671E-01 -0.45609E-02 *** step number: 96 *** Deformation gradient in current step 0.52000000 -0.48000000 -0.48000000 0.48000000 1.48000000 0.48000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3025534387 Kirchhoff stress 0.61475E-02 -0.32189E-03 0.87060E-02 -0.32189E-03 -0.63948E-02 -0.11453E-01 0.87060E-02 -0.11453E-01 -0.29352E-02 *** step number: 97 *** Deformation gradient in current step 0.51500000 -0.48500000 -0.48500000 0.48500000 1.48500000 0.48500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3026965479 Kirchhoff stress 0.46440E-02 -0.18069E-03 0.68122E-02 -0.18069E-03 -0.48017E-02 -0.83774E-02 0.68122E-02 -0.83774E-02 -0.16714E-02 *** step number: 98 *** Deformation gradient in current step 0.51000000 -0.49000000 -0.49000000 0.49000000 1.49000000 0.49000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3027992963 Kirchhoff stress 0.31175E-02 -0.79999E-04 0.47268E-02 -0.79999E-04 -0.31884E-02 -0.54234E-02 0.47268E-02 -0.54234E-02 -0.74390E-03 *** step number: 99 *** Deformation gradient in current step 0.50500000 -0.49500000 -0.49500000 0.49500000 1.49500000 0.49500000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3028610428 Kirchhoff stress 0.15689E-02 -0.19955E-04 0.24540E-02 -0.19955E-04 -0.15867E-02 -0.26282E-02 0.24540E-02 -0.26282E-02 -0.18613E-03 *** step number: 100 *** Deformation gradient in current step 0.50000000 -0.50000000 -0.50000000 0.50000000 1.50000000 0.50000000 0.00000000 0.00000000 1.00000000 energy density (per reference volume) = -0.3028816413 Kirchhoff stress -0.22442E-08 -0.14962E-18 0.89772E-18 -0.14962E-18 -0.22442E-08 0.22443E-18 0.89772E-18 0.22443E-18 -0.22442E-08 * CB-KIM calculation successfully completed