3D numerical simulations and microstructural modeling of anisotropic and tension compression asymmetric ductile materials

Abstract: In the present work, we have analyzed the effect of anisotropy on void growth and stress-strain behavior for materials that exhibit remarkable tension-compression asymmetry (i.e., zirconium alloys). For that purpose, we have performed finite element simulations using a cubic 3D cell with a spherical void inside and subjected to periodic boundary conditions. Nonlinear kinematic constraints are also imposed as boundary conditions in order to maintain the values of macroscopic ratios constant during the whole loa… Show more