Advanced applications of BEM to three-dimensional problems of monotonic and cyclic plasticity

A direct Boundary Element formulation and its numerical implementation for inelastic transient dynamic analysis of three-dimensional solids is presented. The formulation is based on an initial stress approach and is the first ever of its kind in the field ofrthe Boundary Element Method. This formula

The boundary element method (BEM) has been known for some time to be extremely useful for the solution of elastic stress analysis problems involving high stress/strain gradients. In particular, the method has been extensively used for the study of both two and three-dimensional fracture mechanics pr

## Introduction Recently the authors have been involved with elastoplastic finite element computations of the stress and strain fields around crack tips, with a view to establishing a suitable fracture criterion for crack propagation under these conditions. A particular feature of this class of pr

We consider hypersingular integral formulation of some elasticity and potential boundary value problems on 2-D domains. In particular, we consider all integrals whose evaluation is required when the equations are solved by a Galerkin BEM based on piecewise polynomial approximants of arbitrary local