Stress intensity factors by weight function method for cracked composite laminates

Thermal shock stress intensity factor for an edge-cracked plate subjected to thermal shock is obtained from Bueckner's weight function method. It is shown that thermal shock stress intensity factor has maximum values with variation of time and crack length and that there is a critical crack length.

In the present paper a simple method of estimation of stress intensity factors for through-cracks in angle-ply laminates is developed. In this procedure, Savin's elasticity solution for an elliptical hole in twodimensional infinite plate is used as a basic solution for the stress distribution in eac

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

Weight functions for the two surface points of a quarter-elliptical corner crack in a finite thickness plate of infinite width are derived from a general weight function and two reference stress intensity factors. The weight functions have been validated for several linear and non-linear crack face

A numerical technique for simple and efficient integration of weight functions is presented. The method enables the stress intensity factors to be calculated with the aid of a hand calculator for any non-linear stress distribution normal to the crack surfaces. The proposed integration routine is val