---------------------------------------------------------------------------- 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: EAM_Johnson_NearestNeighbor_Cu__MO_887933271505_001 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: 3.5000000000 **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 0.00000000000000000000 1.79999999999999071854 1.79999999999999071854 1.79999999999999071854 0.00000000000000000000 1.79999999999999071854 1.79999999999999071854 1.79999999999999071854 0.00000000000000000000 **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) = -889.8360090 Kirchhoff stress -0.10860E-01 0.00000E+00 0.00000E+00 0.00000E+00 -0.10860E-01 0.00000E+00 0.00000E+00 0.00000E+00 -0.10860E-01 *** 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) = -890.1394183 Kirchhoff stress -0.13079E-01 -0.22406E-04 -0.23384E-02 -0.22406E-04 -0.86540E-02 0.21940E-02 -0.23384E-02 0.21940E-02 -0.11007E-01 *** 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) = -890.4427606 Kirchhoff stress -0.15306E-01 -0.89679E-04 -0.48145E-02 -0.89679E-04 -0.64643E-02 0.42373E-02 -0.48145E-02 0.42373E-02 -0.11449E-01 *** 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) = -890.7459910 Kirchhoff stress -0.17539E-01 -0.20199E-03 -0.74213E-02 -0.20199E-03 -0.42946E-02 0.61243E-02 -0.74213E-02 0.61243E-02 -0.12183E-01 *** 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) = -891.0490655 Kirchhoff stress -0.19772E-01 -0.35960E-03 -0.10151E-01 -0.35960E-03 -0.21482E-02 0.78496E-02 -0.10151E-01 0.78496E-02 -0.13209E-01 *** 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) = -891.3519398 Kirchhoff stress -0.22002E-01 -0.56288E-03 -0.12997E-01 -0.56288E-03 -0.28429E-04 0.94080E-02 -0.12997E-01 0.94080E-02 -0.14522E-01 *** 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) = -891.6599221 Kirchhoff stress 0.78157E-02 0.26152E-03 -0.16014E-01 0.26152E-03 -0.66678E-03 0.10844E-01 -0.16014E-01 0.10844E-01 -0.18881E-01 *** 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) = -891.9677929 Kirchhoff stress 0.62677E-02 0.17826E-03 -0.19080E-01 0.17826E-03 0.12947E-02 0.12064E-01 -0.19080E-01 0.12064E-01 -0.20869E-01 *** 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) = -892.2755136 Kirchhoff stress 0.47310E-02 0.57729E-04 -0.22236E-01 0.57729E-04 0.32196E-02 0.13104E-01 -0.22236E-01 0.13104E-01 -0.23136E-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) = -892.5830464 Kirchhoff stress 0.32094E-02 -0.10061E-03 -0.25474E-01 -0.10061E-03 0.51048E-02 0.13962E-01 -0.25474E-01 0.13962E-01 -0.25673E-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) = -892.8903541 Kirchhoff stress 0.17068E-02 -0.29729E-03 -0.28782E-01 -0.29729E-03 0.69472E-02 0.14635E-01 -0.28782E-01 0.14635E-01 -0.28473E-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) = -893.1974007 Kirchhoff stress 0.22744E-03 -0.53283E-03 -0.32151E-01 -0.53283E-03 0.87437E-02 0.15119E-01 -0.32151E-01 0.15119E-01 -0.31529E-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) = -893.5041509 Kirchhoff stress -0.12245E-02 -0.80768E-03 -0.35570E-01 -0.80768E-03 0.10491E-01 0.15414E-01 -0.35570E-01 0.15414E-01 -0.34831E-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) = -893.8105708 Kirchhoff stress -0.26445E-02 -0.11222E-02 -0.39029E-01 -0.11222E-02 0.12186E-01 0.15518E-01 -0.39029E-01 0.15518E-01 -0.38368E-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) = -894.1166277 Kirchhoff stress -0.40281E-02 -0.14767E-02 -0.42515E-01 -0.14767E-02 0.13825E-01 0.15430E-01 -0.42515E-01 0.15430E-01 -0.42130E-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) = -894.4222901 Kirchhoff stress -0.53708E-02 -0.18712E-02 -0.46017E-01 -0.18712E-02 0.15405E-01 0.15149E-01 -0.46017E-01 0.15149E-01 -0.46104E-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) = -894.7275281 Kirchhoff stress -0.66677E-02 -0.23057E-02 -0.49523E-01 -0.23057E-02 0.16922E-01 0.14676E-01 -0.49523E-01 0.14676E-01 -0.50279E-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) = -895.0323131 Kirchhoff stress -0.79143E-02 -0.27799E-02 -0.53021E-01 -0.27799E-02 0.18374E-01 0.14011E-01 -0.53021E-01 0.14011E-01 -0.54639E-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) = -895.3366184 Kirchhoff stress -0.91059E-02 -0.32931E-02 -0.56499E-01 -0.32931E-02 0.19756E-01 0.13157E-01 -0.56499E-01 0.13157E-01 -0.59172E-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) = -895.6404189 Kirchhoff stress -0.10238E-01 -0.38447E-02 -0.59943E-01 -0.38447E-02 0.21064E-01 0.12115E-01 -0.59943E-01 0.12115E-01 -0.63860E-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) = -895.9436912 Kirchhoff stress -0.11305E-01 -0.44334E-02 -0.63342E-01 -0.44334E-02 0.22297E-01 0.10887E-01 -0.63342E-01 0.10887E-01 -0.68689E-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) = -896.2464140 Kirchhoff stress -0.12305E-01 -0.50578E-02 -0.66682E-01 -0.50578E-02 0.23450E-01 0.94769E-02 -0.66682E-01 0.94769E-02 -0.73641E-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) = -896.5485679 Kirchhoff stress -0.13231E-01 -0.57162E-02 -0.69951E-01 -0.57162E-02 0.24519E-01 0.78892E-02 -0.69951E-01 0.78892E-02 -0.78699E-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) = -896.8501355 Kirchhoff stress -0.14081E-01 -0.64064E-02 -0.73136E-01 -0.64064E-02 0.25502E-01 0.61283E-02 -0.73136E-01 0.61283E-02 -0.83844E-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) = -897.1511016 Kirchhoff stress -0.14850E-01 -0.71259E-02 -0.76225E-01 -0.71259E-02 0.26395E-01 0.41997E-02 -0.76225E-01 0.41997E-02 -0.89058E-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) = -897.4514533 Kirchhoff stress -0.15535E-01 -0.78718E-02 -0.79204E-01 -0.78718E-02 0.27196E-01 0.21097E-02 -0.79204E-01 0.21097E-02 -0.94320E-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) = -897.7511797 Kirchhoff stress -0.16134E-01 -0.86410E-02 -0.82062E-01 -0.86410E-02 0.27902E-01 -0.13480E-03 -0.82062E-01 -0.13480E-03 -0.99612E-01 *** 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) = -898.0502725 Kirchhoff stress -0.16644E-01 -0.94298E-02 -0.84788E-01 -0.94298E-02 0.28510E-01 -0.25261E-02 -0.84788E-01 -0.25261E-02 -0.10491E+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) = -898.3487255 Kirchhoff stress -0.17062E-01 -0.10235E-01 -0.87369E-01 -0.10235E-01 0.29019E-01 -0.50558E-02 -0.87369E-01 -0.50558E-02 -0.11020E+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) = -898.6465352 Kirchhoff stress -0.17387E-01 -0.11051E-01 -0.89795E-01 -0.11051E-01 0.29426E-01 -0.77146E-02 -0.89795E-01 -0.77146E-02 -0.11546E+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) = -898.9437001 Kirchhoff stress -0.17618E-01 -0.11874E-01 -0.92055E-01 -0.11874E-01 0.29730E-01 -0.10493E-01 -0.92055E-01 -0.10493E-01 -0.12066E+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) = -899.2402215 Kirchhoff stress -0.17754E-01 -0.12700E-01 -0.94141E-01 -0.12700E-01 0.29930E-01 -0.13379E-01 -0.94141E-01 -0.13379E-01 -0.12579E+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) = -899.5361028 Kirchhoff stress -0.17797E-01 -0.13523E-01 -0.96042E-01 -0.13523E-01 0.30026E-01 -0.16364E-01 -0.96042E-01 -0.16364E-01 -0.13082E+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) = -899.8313499 Kirchhoff stress -0.17745E-01 -0.14338E-01 -0.97750E-01 -0.14338E-01 0.30018E-01 -0.19433E-01 -0.97750E-01 -0.19433E-01 -0.13574E+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) = -900.1259711 Kirchhoff stress -0.17601E-01 -0.15141E-01 -0.99259E-01 -0.15141E-01 0.29907E-01 -0.22576E-01 -0.99259E-01 -0.22576E-01 -0.14051E+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) = -900.4199771 Kirchhoff stress -0.17367E-01 -0.15925E-01 -0.10056E+00 -0.15925E-01 0.29693E-01 -0.25779E-01 -0.10056E+00 -0.25779E-01 -0.14513E+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) = -900.7133807 Kirchhoff stress -0.17044E-01 -0.16685E-01 -0.10165E+00 -0.16685E-01 0.29379E-01 -0.29028E-01 -0.10165E+00 -0.29028E-01 -0.14957E+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) = -901.0061969 Kirchhoff stress -0.16637E-01 -0.17416E-01 -0.10253E+00 -0.17416E-01 0.28966E-01 -0.32309E-01 -0.10253E+00 -0.32309E-01 -0.15382E+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) = -901.2984430 Kirchhoff stress -0.16149E-01 -0.18113E-01 -0.10318E+00 -0.18113E-01 0.28459E-01 -0.35608E-01 -0.10318E+00 -0.35608E-01 -0.15785E+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) = -901.5901381 Kirchhoff stress -0.15585E-01 -0.18770E-01 -0.10361E+00 -0.18770E-01 0.27860E-01 -0.38911E-01 -0.10361E+00 -0.38911E-01 -0.16164E+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) = -901.8813034 Kirchhoff stress -0.14948E-01 -0.19382E-01 -0.10382E+00 -0.19382E-01 0.27173E-01 -0.42203E-01 -0.10382E+00 -0.42203E-01 -0.16519E+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) = -902.1719617 Kirchhoff stress -0.14245E-01 -0.19946E-01 -0.10380E+00 -0.19946E-01 0.26405E-01 -0.45468E-01 -0.10380E+00 -0.45468E-01 -0.16847E+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) = -902.4621377 Kirchhoff stress -0.13481E-01 -0.20456E-01 -0.10356E+00 -0.20456E-01 0.25559E-01 -0.48691E-01 -0.10356E+00 -0.48691E-01 -0.17146E+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) = -902.7518574 Kirchhoff stress -0.12664E-01 -0.20908E-01 -0.10310E+00 -0.20908E-01 0.24643E-01 -0.51858E-01 -0.10310E+00 -0.51858E-01 -0.17417E+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) = -903.0465125 Kirchhoff stress 0.83219E-02 -0.29480E-01 -0.88223E-01 -0.29480E-01 0.24164E-01 -0.60310E-01 -0.88223E-01 -0.60310E-01 -0.17013E+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) = -903.3409661 Kirchhoff stress 0.96547E-02 -0.29907E-01 -0.86900E-01 -0.29907E-01 0.23015E-01 -0.63434E-01 -0.86900E-01 -0.63434E-01 -0.17200E+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) = -903.6352533 Kirchhoff stress 0.11014E-01 -0.30261E-01 -0.85364E-01 -0.30261E-01 0.21807E-01 -0.66456E-01 -0.85364E-01 -0.66456E-01 -0.17355E+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) = -903.9294101 Kirchhoff stress 0.12392E-01 -0.30539E-01 -0.83622E-01 -0.30539E-01 0.20548E-01 -0.69361E-01 -0.83622E-01 -0.69361E-01 -0.17476E+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) = -904.2234733 Kirchhoff stress 0.13780E-01 -0.30739E-01 -0.81681E-01 -0.30739E-01 0.19246E-01 -0.72136E-01 -0.81681E-01 -0.72136E-01 -0.17562E+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) = -904.5174802 Kirchhoff stress 0.15168E-01 -0.30860E-01 -0.79552E-01 -0.30860E-01 0.17910E-01 -0.74768E-01 -0.79552E-01 -0.74768E-01 -0.17615E+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) = -904.8114682 Kirchhoff stress 0.16547E-01 -0.30900E-01 -0.77244E-01 -0.30900E-01 0.16547E-01 -0.77244E-01 -0.77244E-01 -0.77244E-01 -0.17632E+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) = -905.1054751 Kirchhoff stress 0.17910E-01 -0.30860E-01 -0.74768E-01 -0.30860E-01 0.15168E-01 -0.79552E-01 -0.74768E-01 -0.79552E-01 -0.17615E+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) = -905.3995383 Kirchhoff stress 0.19246E-01 -0.30739E-01 -0.72136E-01 -0.30739E-01 0.13780E-01 -0.81681E-01 -0.72136E-01 -0.81681E-01 -0.17562E+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) = -905.6936951 Kirchhoff stress 0.20548E-01 -0.30539E-01 -0.69361E-01 -0.30539E-01 0.12392E-01 -0.83622E-01 -0.69361E-01 -0.83622E-01 -0.17476E+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) = -905.9879823 Kirchhoff stress 0.21807E-01 -0.30261E-01 -0.66456E-01 -0.30261E-01 0.11014E-01 -0.85364E-01 -0.66456E-01 -0.85364E-01 -0.17355E+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) = -906.2824359 Kirchhoff stress 0.23015E-01 -0.29907E-01 -0.63434E-01 -0.29907E-01 0.96547E-02 -0.86900E-01 -0.63434E-01 -0.86900E-01 -0.17200E+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) = -906.5770910 Kirchhoff stress 0.24164E-01 -0.29480E-01 -0.60310E-01 -0.29480E-01 0.83219E-02 -0.88223E-01 -0.60310E-01 -0.88223E-01 -0.17013E+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) = -906.8668107 Kirchhoff stress 0.24643E-01 -0.20908E-01 -0.51858E-01 -0.20908E-01 -0.12664E-01 -0.10310E+00 -0.51858E-01 -0.10310E+00 -0.17417E+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) = -907.1569867 Kirchhoff stress 0.25559E-01 -0.20456E-01 -0.48691E-01 -0.20456E-01 -0.13481E-01 -0.10356E+00 -0.48691E-01 -0.10356E+00 -0.17146E+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) = -907.4476450 Kirchhoff stress 0.26405E-01 -0.19946E-01 -0.45468E-01 -0.19946E-01 -0.14245E-01 -0.10380E+00 -0.45468E-01 -0.10380E+00 -0.16847E+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) = -907.7388103 Kirchhoff stress 0.27173E-01 -0.19382E-01 -0.42203E-01 -0.19382E-01 -0.14948E-01 -0.10382E+00 -0.42203E-01 -0.10382E+00 -0.16519E+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) = -908.0305054 Kirchhoff stress 0.27860E-01 -0.18770E-01 -0.38911E-01 -0.18770E-01 -0.15585E-01 -0.10361E+00 -0.38911E-01 -0.10361E+00 -0.16164E+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) = -908.3227515 Kirchhoff stress 0.28459E-01 -0.18113E-01 -0.35608E-01 -0.18113E-01 -0.16149E-01 -0.10318E+00 -0.35608E-01 -0.10318E+00 -0.15785E+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) = -908.6155677 Kirchhoff stress 0.28966E-01 -0.17416E-01 -0.32309E-01 -0.17416E-01 -0.16637E-01 -0.10253E+00 -0.32309E-01 -0.10253E+00 -0.15382E+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) = -908.9089713 Kirchhoff stress 0.29379E-01 -0.16685E-01 -0.29028E-01 -0.16685E-01 -0.17044E-01 -0.10165E+00 -0.29028E-01 -0.10165E+00 -0.14957E+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) = -909.2029773 Kirchhoff stress 0.29693E-01 -0.15925E-01 -0.25779E-01 -0.15925E-01 -0.17367E-01 -0.10056E+00 -0.25779E-01 -0.10056E+00 -0.14513E+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) = -909.4975985 Kirchhoff stress 0.29907E-01 -0.15141E-01 -0.22576E-01 -0.15141E-01 -0.17601E-01 -0.99259E-01 -0.22576E-01 -0.99259E-01 -0.14051E+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) = -909.7928456 Kirchhoff stress 0.30018E-01 -0.14338E-01 -0.19433E-01 -0.14338E-01 -0.17745E-01 -0.97750E-01 -0.19433E-01 -0.97750E-01 -0.13574E+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) = -910.0887269 Kirchhoff stress 0.30026E-01 -0.13523E-01 -0.16364E-01 -0.13523E-01 -0.17797E-01 -0.96042E-01 -0.16364E-01 -0.96042E-01 -0.13082E+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) = -910.3852483 Kirchhoff stress 0.29930E-01 -0.12700E-01 -0.13379E-01 -0.12700E-01 -0.17754E-01 -0.94141E-01 -0.13379E-01 -0.94141E-01 -0.12579E+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) = -910.6824132 Kirchhoff stress 0.29730E-01 -0.11874E-01 -0.10493E-01 -0.11874E-01 -0.17618E-01 -0.92055E-01 -0.10493E-01 -0.92055E-01 -0.12066E+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) = -910.9802229 Kirchhoff stress 0.29426E-01 -0.11051E-01 -0.77146E-02 -0.11051E-01 -0.17387E-01 -0.89795E-01 -0.77146E-02 -0.89795E-01 -0.11546E+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) = -911.2786759 Kirchhoff stress 0.29019E-01 -0.10235E-01 -0.50558E-02 -0.10235E-01 -0.17062E-01 -0.87369E-01 -0.50558E-02 -0.87369E-01 -0.11020E+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) = -911.5777687 Kirchhoff stress 0.28510E-01 -0.94298E-02 -0.25261E-02 -0.94298E-02 -0.16644E-01 -0.84788E-01 -0.25261E-02 -0.84788E-01 -0.10491E+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) = -911.8774951 Kirchhoff stress 0.27902E-01 -0.86410E-02 -0.13480E-03 -0.86410E-02 -0.16134E-01 -0.82062E-01 -0.13480E-03 -0.82062E-01 -0.99612E-01 *** 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) = -912.1778468 Kirchhoff stress 0.27196E-01 -0.78718E-02 0.21097E-02 -0.78718E-02 -0.15535E-01 -0.79204E-01 0.21097E-02 -0.79204E-01 -0.94320E-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) = -912.4788129 Kirchhoff stress 0.26395E-01 -0.71259E-02 0.41997E-02 -0.71259E-02 -0.14850E-01 -0.76225E-01 0.41997E-02 -0.76225E-01 -0.89058E-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) = -912.7803805 Kirchhoff stress 0.25502E-01 -0.64064E-02 0.61283E-02 -0.64064E-02 -0.14081E-01 -0.73136E-01 0.61283E-02 -0.73136E-01 -0.83844E-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) = -913.0825344 Kirchhoff stress 0.24519E-01 -0.57162E-02 0.78892E-02 -0.57162E-02 -0.13231E-01 -0.69951E-01 0.78892E-02 -0.69951E-01 -0.78699E-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) = -913.3852572 Kirchhoff stress 0.23450E-01 -0.50578E-02 0.94769E-02 -0.50578E-02 -0.12305E-01 -0.66682E-01 0.94769E-02 -0.66682E-01 -0.73641E-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) = -913.6885295 Kirchhoff stress 0.22297E-01 -0.44334E-02 0.10887E-01 -0.44334E-02 -0.11305E-01 -0.63342E-01 0.10887E-01 -0.63342E-01 -0.68689E-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) = -913.9923300 Kirchhoff stress 0.21064E-01 -0.38447E-02 0.12115E-01 -0.38447E-02 -0.10238E-01 -0.59943E-01 0.12115E-01 -0.59943E-01 -0.63860E-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) = -914.2966353 Kirchhoff stress 0.19756E-01 -0.32931E-02 0.13157E-01 -0.32931E-02 -0.91059E-02 -0.56499E-01 0.13157E-01 -0.56499E-01 -0.59172E-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) = -914.6014203 Kirchhoff stress 0.18374E-01 -0.27799E-02 0.14011E-01 -0.27799E-02 -0.79143E-02 -0.53021E-01 0.14011E-01 -0.53021E-01 -0.54639E-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) = -914.9066583 Kirchhoff stress 0.16922E-01 -0.23057E-02 0.14676E-01 -0.23057E-02 -0.66677E-02 -0.49523E-01 0.14676E-01 -0.49523E-01 -0.50279E-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) = -915.2123207 Kirchhoff stress 0.15405E-01 -0.18712E-02 0.15149E-01 -0.18712E-02 -0.53708E-02 -0.46017E-01 0.15149E-01 -0.46017E-01 -0.46104E-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) = -915.5183776 Kirchhoff stress 0.13825E-01 -0.14767E-02 0.15430E-01 -0.14767E-02 -0.40281E-02 -0.42515E-01 0.15430E-01 -0.42515E-01 -0.42130E-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) = -915.8247975 Kirchhoff stress 0.12186E-01 -0.11222E-02 0.15518E-01 -0.11222E-02 -0.26445E-02 -0.39029E-01 0.15518E-01 -0.39029E-01 -0.38368E-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) = -916.1315477 Kirchhoff stress 0.10491E-01 -0.80768E-03 0.15414E-01 -0.80768E-03 -0.12245E-02 -0.35570E-01 0.15414E-01 -0.35570E-01 -0.34831E-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) = -916.4385943 Kirchhoff stress 0.87437E-02 -0.53283E-03 0.15119E-01 -0.53283E-03 0.22744E-03 -0.32151E-01 0.15119E-01 -0.32151E-01 -0.31529E-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) = -916.7459020 Kirchhoff stress 0.69472E-02 -0.29729E-03 0.14635E-01 -0.29729E-03 0.17068E-02 -0.28782E-01 0.14635E-01 -0.28782E-01 -0.28473E-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) = -917.0534348 Kirchhoff stress 0.51048E-02 -0.10061E-03 0.13962E-01 -0.10061E-03 0.32094E-02 -0.25474E-01 0.13962E-01 -0.25474E-01 -0.25673E-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) = -917.3611555 Kirchhoff stress 0.32196E-02 0.57729E-04 0.13104E-01 0.57729E-04 0.47310E-02 -0.22236E-01 0.13104E-01 -0.22236E-01 -0.23136E-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) = -917.6690263 Kirchhoff stress 0.12947E-02 0.17826E-03 0.12064E-01 0.17826E-03 0.62677E-02 -0.19080E-01 0.12064E-01 -0.19080E-01 -0.20869E-01 *** 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) = -917.9770086 Kirchhoff stress -0.66678E-03 0.26152E-03 0.10844E-01 0.26152E-03 0.78157E-02 -0.16014E-01 0.10844E-01 -0.16014E-01 -0.18881E-01 *** 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) = -918.2798829 Kirchhoff stress -0.28429E-04 -0.56288E-03 0.94080E-02 -0.56288E-03 -0.22002E-01 -0.12997E-01 0.94080E-02 -0.12997E-01 -0.14522E-01 *** 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) = -918.5829574 Kirchhoff stress -0.21482E-02 -0.35960E-03 0.78496E-02 -0.35960E-03 -0.19772E-01 -0.10151E-01 0.78496E-02 -0.10151E-01 -0.13209E-01 *** 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) = -918.8861878 Kirchhoff stress -0.42946E-02 -0.20199E-03 0.61243E-02 -0.20199E-03 -0.17539E-01 -0.74213E-02 0.61243E-02 -0.74213E-02 -0.12183E-01 *** 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) = -919.1895301 Kirchhoff stress -0.64643E-02 -0.89679E-04 0.42373E-02 -0.89679E-04 -0.15306E-01 -0.48145E-02 0.42373E-02 -0.48145E-02 -0.11449E-01 *** 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) = -919.4929394 Kirchhoff stress -0.86540E-02 -0.22406E-04 0.21940E-02 -0.22406E-04 -0.13079E-01 -0.23384E-02 0.21940E-02 -0.23384E-02 -0.11007E-01 *** 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) = -919.7963712 Kirchhoff stress -0.10860E-01 0.00000E+00 0.00000E+00 0.00000E+00 -0.10860E-01 0.00000E+00 0.00000E+00 0.00000E+00 -0.10860E-01 * CB-KIM calculation successfully completed