The stress intensity factors for a griffith crack whose surfaces are loaded asymmetrically

This paper deals with the method of analysis for arbitrary radial crack systems. Using the Mellin transform, several fundamental solutions of radial crack system are given. By means of these solutions, we give a general method for solving arbitrary radial crack systems which are loaded by most gener

In this paper, the author makes use of a recent development in the theory of triple integral equations to derive formulae for the stress intensity factors of a pair of coplanar Griffith cracks whose surfaces are subject to surface tractions of a very general kind. Two particular cases are considered

The stress intensity factor at the deepest point of a semi-elliptical surface crack is calculated for stress gradients in direction of depth. The method is based on weight functions. The crack opening displacement for the reference problem is calculated with a method proposed by Petroski and Achenba

Stress intensity factors are calculated at the deepest point and at the surface points of circumferential semielliptical surface cracks in a thermally shocked pipe. The method of calculation is based on weight functions following a proposal by Munz et al. Numerical values of the stress intensity fac

An integral transform method is used to obtain stress distributions in cracked symmetric two-dimensional projections extending out of the half plane. The case considered includes two collinear external Griffith cracks located at the root of the projection. Two loaded cases are considered. Numerical