Adaptive FEM analysis of selected elastic–visco-plastic problems

The purpose of this paper is to present an adaptive finite element-boundary element coupling method for elasto-plastic analysis. The finite element method is utilized in regions where plastic material behavior is expected to develop, whereas substantial parts of the bounded/unbounded linear elastic

A quasistatic frictionless contact problem is studied, modelled with the Signorini contact condition with a gap function. The material behavior is modelled with an electro-elastic-visco-plastic constitutive law, allowing piezoelectric effects. A weak formulation for the model is given in the form of

A novel method for measuring plane stress dynamic fracture toughness was presented by Xia et al. 48 17-24 (1994)]. A formula for calculating dynamic J-integral (J\*) from the measured average load-displacement behavior was introduced by extending the quasi-static deep crack formula proposed by Rice

## Abstract The Zarka shakedown approach and the __h__‐adaptive finite element method are applied to evaluate residual stresses resulting from arbitrary cyclic loading. Two error indicators are used to refine the mesh: the explicit residual one which controls accuracy of the momentum balance and th

This paper presents a general one-dimensional (1-D) finite element (FE) procedure for a highly non-linear 1-D elastic visco-plastic (1-D EVP) model proposed by Yin and Graham for consolidation analysis of layered clay soils. In formulating the 1-D FE procedure, a trapezoidal formula is used to avoid