Three-dimensional finite element analysis of single-edge cracked low density polyethylene

## Abstract By using the finite element technique, stress intensity factors have been obtained for finite rectangular plates and the results have been given for various __h__/__a__, __W__/__a__ and __L__/__W__ ratios. By using a three‐dimensional isoparametric element, the problem has been consider

## Abstract The finite element method is formulated in such a way that the electromagnetic solution of an excited cavity formed from an N‐port waveguides junction leads directly and naturally to circuit characteristics of this junction. The use of edge‐elements eliminates nonphysical solutions. The

Three-dimensional, elastic and elastic-plastic finite element analysis of small surface cracks was performed. The elastic analysis is in good agreement with other solutions. For a round surface with a radius equal to six times the crack depth, the K at the surface is about 4% higher than the K for a

An approach based on the finite element method (FEM) with the rectangular-parallelepipd edge element is proposed for the analysis of electromagnetic waveguide bends. Here, to be permissible for analysis of various electromagnetic waveguides, the analytical relations in the uniform waveguide are cons