Failures of the three-dimensional patch test for large elastic deformations

We have developed a microrheological analysis for the nonlinear elastic behavior of a 'dry,' perfectly ordered, three-dimensional foam composed of thin liquid films with uniform surface tension. The undeformed cell structure is based on Kelvin's minimal tetrakaidecahedron, which contains six planar

A geometrically non-linear version of the well known 8-node Wilson brick element is presented. The element is based on a sound variational formulation and the modified method of incompatible modes, which are shown to render quite a satisfying, locking-free performance in some challenging large displ

The numerical simulation of processes undergoing finite deformations requires robust elements. For a broad range of applications these elements should have a good performance in bending dominated situations as well as in the case of incompressibility. The element should be insensitive against mesh d

The paper introduces a general theory for the numerical simulation of large deformation contact problems. The contacting bodies under consideration may be of two-or three-dimensional shape modelled by ÿnite elements. A contact ÿnite element which can be applied to handle multi-body contact as well a

## Abstract Simulation of large deformation and post‐failure of geomaterial in the framework of smoothed particle hydrodynamics (SPH) are presented in this study. The Drucker–Prager model with associated and non‐associated plastic flow rules is implemented into the SPH code to describe elastic–plas