A THREE-DIMENSIONAL FINITE ELEMENT FORMULATION FOR THERMOVISCOELASTIC ORTHOTROPIC MEDIA

Based on energy functional and with the inclusion of high-order incompatible dynamic displacement modes, a formulation for 3-D "nite dynamic element method (DEM) is developed and a new 8-node solid element is derived in this paper. Numerical results exhibit that the present method provides the most

The aim of this contribution is the development of a finite element formulation tailored to capture strong discontinuities in fluid-saturated porous media. Thereby, strong discontinuities are considered as the final failure mechanism within localization problems. The failure kinematics are governed

In this paper a general boundary element formulation for the three-dimensional elastoplastic analysis of cracked bodies is presented. The non-linear formulation is based on the Dual Boundary Element Method. The continuity requirements of the field variables are fulfilled by a discretization strategy

This paper deals with the dynamics of non-linear distributed parameter "xed-bed bioreactors. The model consists of a pair of non-linear partial di!erential (evolution) equations. The true spatially three-dimensional situation is considered instead of the usual one-dimensional approximation. This ena

The paper introduces a general theory for the numerical simulation of large deformation contact problems. The contacting bodies under consideration may be of two-or three-dimensional shape modelled by ÿnite elements. A contact ÿnite element which can be applied to handle multi-body contact as well a

We present an automatic three-dimensional mesh generation system for the solution of the Poisson᎐Boltzmann equation using a finite element discretization. The different algorithms presented allow the construction of a tetrahedral mesh using a predetermined spatial distribution of vertices adapted to