A large time incremental finite element method for finite deformation problem

A two-dimensional ®nite element method is developed for large deformation plasticity. Principal axes are used for the description of the material behaviour, and the use of principal logarithmic stretches leads to exact formulae for ®nite deformation problems with large elastic and plastic strains. A

## Abstract In this paper, Newmark time‐stepping scheme and edge elements are used to numerically solve the time‐dependent scattering problem in a three‐dimensional polyhedral cavity. Finite element methods based on the variational formulation derived in Van and Wood (__Adv. Comput. Math.__, to app

## Abstract We generalize the well‐known residual‐based error estimator in linear elasticity to the case of non‐linear deformation problems based on large strain and demonstrate its use in adaptive mesh control. Copyright © 2009 John Wiley & Sons, Ltd.

## Abstract A finite element model for the inverse analysis of large‐displacement beams in the elastic range is presented. The model permits determining the initial shape of a beam such that it attains the given design shape under the effect of service loads. This formulation has immediate applicat