A finite element analysis of strain localization for soft rock using a constitutive equation with strain softening

In this work, a three-node triangular finite element with two degrees of freedom per node for the large strain elasto-plastic analysis of axisymmetric solids is presented. The formulation resorts to the adjacent elements to obtain a quadratic interpolation of the geometry over a patch of four elemen

An eight!node C 9 shell element for \_nite elasticÐplastic deformations with anisotropies is developed[ It combines the advantages of an isoparametric description of geometry and deformation\ the application of tensors in Cartesian components\ and a real and e}ective plane stress description with th

This paper presents a ®nite element model for strain localization analysis of elastoplastic solids subjected to discontinuous displacement ®elds based on standard Galerkin approximation. Strain enhancements via jumps in the displacement ®eld are captured and condensed on the material level, leading

An updated Lagrangian implicit FEM model for the analysis of large thermo-mechanically coupled hyperelasticviscoplastic deformations of isotropic porous materials is considered. An appropriate framework for constitutive modelling is introduced that includes a stress-free thermally expanded conÿgurat