Stress intensity factors for a finite plate with an inclined crack by boundary collocation

A set of complex functions for the double edge cracked plate is proposed. The boundary collocation method is used for estimating the stress intensity factors and the results obtained by this method compare very favorably with existing solutions for many cases.

The plane elastic problem for a finite plate with a curved crack is considered. Uniform external tension on the outer boundary is chosen as the applied load. The stress intensity factors at the crack tips are calculated by using the boundary collocation method. The results obtained by this method co

Mixed mode stress intensity factor solutions are presented for deflected and inclined corner cracks in finite-thickness plates under uniform tensile remote loading. Three-dimensional enriched finite elements, which contain analytically known crack tip displacement and strain fields, are employed in

The eigenfunction expansion variational method (EEVM) is proposed to determine the stress intensity factors for two-dimensional cracked bodies. In the new method, the undetermined coefficients in the truncated eigenfunction expansion form are determined by using the variational method. It is expecte