.. _V6.07.101: **v6.07.101** COMP001 — Elasto-plastic behavior test. Simulation at a hardware point ================================================================================================ **Summary:** This test involves a simulation of a loading path in stresses or deformations at a material point, i.e. on a model such that the stress and deformation states are homogeneous at all times. It thus makes it possible to test a certain number of elastoplastic behavior models, in order to verify the robustness of their numerical integration, their insensitivity to a change of units, the correct consideration of the control variables on which the coefficients of the model depend, the invariance with respect to a global rotation applied to the problem, the accuracy of the tangent matrix. Modeling A: this modeling makes it possible to validate model VMIS_ISOT_LINE in 3D and C_ PLAN. B modeling: this modeling makes it possible to validate model VMIS_ISOT_TRAC in 3D and C_ PLAN. C modeling: this modeling makes it possible to validate model VMIS_CINE_LINE in 3D. D modeling: this modeling makes it possible to validate model VMIS_ECMI_LINE in 3D and C_ PLAN. E modeling: this modeling makes it possible to validate model VMIS_ECMI_TRAC in 3D and C_ PLAN. F modeling: this modeling makes it possible to validate model VMIS_CIN1_CHAB in 3D. G modeling: this modeling makes it possible to validate model VMIS_CIN2_CHAB in 3D. H modeling: this modeling makes it possible to validate model VMIS_ISOT_PUIS in 3D. J modeling: this modeling makes it possible to validate model MOHR_COULOMB in 3D. K modeling: this modeling makes it possible to validate the MohrCoulombas model in 3D. L modeling: this modeling makes it possible to validate model NLH_CSRM in 3D. .. toctree:: :hidden: self .. toctree:: :maxdepth: 2 :numbered: Probl_me_de_r_f_rence Solution_de_r_f_rence Mod_lisation_A Mod_lisation_B Mod_lisation_C Mod_lisation_D Mod_lisation_E Mod_lisation_F Mod_lisation_G Mod_lisation_J Mod_lisation_K Mod_lisation_L Synth_se