Finite strain inelasticity for isotropy, a simple and efficient finite element formulation

The so-called enhanced strain ÿnite elements are based on the enrichment of the standard compatible strain ÿeld by the introduction of additional, non-compatible strains. This class of elements can be derived starting from a partial Hu-Washizu variational principle. However, since in the original en

For the stress analysis of planar deformable bodies, we usually refer to either plane stress or plane strain hypothesis. Three-dimensional analysis is required when neither hypothesis is applicable, e.g. bodies with finite thickness. In this paper, we derive an 'exact' solution for the plane stress

We use the updated Lagrangian and the co-rotational finite element methods to obtain solutions for geometrically non-linear flexible sliding beams. Finite element formulations are normally carried out for fixed domains. Since the sliding beam is a system of changing mass, first we discretize the sys

A transition element is presented for meshes containing uniform strain hexahedral and tetrahedral ÿnite elements. It is shown that the volume of the standard uniform strain hexahedron is identical to that of a polyhedron with 14 vertices and 24 triangular faces. Based on this equivalence, a transiti

This paper is concerned with the development of a numerical algorithm for the solution of the uncoupled, quasistatic initial/boundary value problem involving orthotropic linear viscoelastic media undergoing thermal and/or mechanical deformation. The constitutive equations, expressed in integral form