Simulation of strength difference in elasto-plasticity for adhesive materials

A characteristic of most metallic materials is nonlinear work-hardening for the ¯ow stress, equal in tension and compression at ®rst loading. On the contrary, triaxial experimental tests for high-strength steels by Spitzig et al. [W.A. Spitzig, R.J. Sober, O. Richmond, Pressure dependence of yieldin

In the first part of this paper Per1 et al., Engng Fruct. Mech. 23, 321-331 (19861, a numerical model for simulating fatigue creep crack growth in a visco-elasto-plastic material was proposed. In the present paper this numerical model is validated and corroborated by comparing its prediction of a-N

## Abstract This paper presents a fully coupled finite element formulation for partially saturated soil as a triphasic porous material, which has been developed for the simulation of shield tunnelling with heading face support using compressed air. While for many numerical simulations in geotechnic

A different approach to discretization is described with which complicated three-dimensional heat transfer problems can be solved with a finite volume approach on a general curvilinear grid. It represents an improvement on the existing methods in that it can easily be expanded to three-dimensional p