The stress intensity factor for a flat elliptical crack in an elastic solid under uniform tension

The stress intensity factor K, at boundary points of a flat elliptical crack in a transversely isotropic solid subjected to uniform tension can be derived by a simple technique with the knowledge that normal tension produces an ellipsoidal crack opening geometry.

W-A simpk limiting procedure is reveakd whereby tk three-dimensional state of stress and defonaatba around pa&olii cracks or flaws embedded in elastic solids may be obtained. Several results are derived from availabk solutions conceraing elliptical cracks or thin-sheet rigid inclusions. In particula

The problem of singular stresses in an infinite elastic solid containing a spherical cavity and a flat annular crack subjected to axial tension is considered. By application of an integral transform method and the theory of triple integral equations the problem is reduced to that of solving a singul

intensity factors were calculated at the deepest point and at the surface points of longitudinal semi-elliptical surface cracks in a thermally shocked pipe. The method of calculation is based on weight functions following a proposal by Mattheck, Munz and Stamm, Engng. Fract. Mech. 18, 633-641 (1983)