A hybrid finite element method for heterogeneous materials with randomly dispersed elastic inclusions

A hybrid "nite element method is proposed for the thermo-mechanical analysis of porous materials with pore pressure. Arbitrary n-sided polygonal elements based on the Hellinger}Reissner principle are used to mesh the heterogeneous domain. The validity of the proposed method is veri"ed by a simple an

## Stokes' problem Discontinuous coefficients Surface tension a b s t r a c t In this note we propose a finite element method for incompressible (or compressible) elasticity problems with discontinuous modulus of elasticity (or, if compressible, Poisson's ratio). The problem is written on mixed for

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

To the best of the knowledge of the authors, the formulation is carried out for the first time on the finiteelement beam-propagation method for the analysis of the magnetooptic waveguide in which the structure varies dong the propagation direction. The present method is applicable not only to the ca