Deep Drawing Simulations With Different Polycrystalline Models

The goal of this research is to study the anisotropic material behavior during forming processes, represented by both complex yield loci and kinematic‐isotropic hardening models. A first part of this paper describes the main concepts of the ‘Stress‐strain interpolation’ model that has been implemented in the non‐linear finite element code Lagamine. This model consists of a local description of the yield locus based on the texture of the material through the full constraints Taylor’s model. The texture evolution due to plastic deformations is computed throughout the FEM simulations. This ‘local yield locus’ approach was initially linked to the classical isotropic Swift hardening law. Recently, a more complex hardening model was implemented: the physically‐based microstructural model of Teodosiu. It takes into account intergranular heterogeneity due to the evolution of dislocation structures, that affects isotropic and kinematic hardening. The influence of the hardening model is compared to the influence of...