Wave computations in irregular layered media using a semidiscrete finite element perturbation method

Al&met-A method for predicting the state of stress in a finite body consisting of two isotropic material layers, including a ch~cte~~tion of the singular stress state at the intersection of the interface with a stress-free boundary, is presented. The prediction of the "free edge stress" is accomplis

## Abstract An explicit finite element method was used to predict a natural convection flow in an enclosed cavity. The problem considered was a differentially heated, tall (8:1), rectangular cavity with a Rayleigh number of 3.4 × 105 and Prandtl number of 0.71. The incompressible Navier–Stokes equa

## Abstract A time‐discontinuous Galerkin finite element method (DGFEM) for dynamics and wave propagation in non‐linear solids and saturated porous media is presented. The main distinct characteristic of the proposed DGFEM is that the specific P3–P1 interpolation approximation, which uses piecewise

A ÿnite element based method has been developed for computing time-averaged uid-induced radial excitation forces and rotor dynamic forces on a two-dimensional centrifugal impeller rotating and whirling in a volute casing. In this method potential ow theory is used, which implies the assumption of ir