Cracks at the edge of a hole in a finite longitudinal shear plate

The problem of an edge crack in a finite orthotropic plate under anti-plane shear is considered. The boundary collocation method is used to calculate the mode III stress intensity factor (SF). For the case in which the material is isotropic, the present results agree very well with those obtained by

In another paper a full field solution was developed for a finite plate with a single hole-edge crack. In the present paper the results are compared to some related crack contigurations. The damage tolerance significance is evaluated.

Matract-Two sets of displacement functions have been proposed, and the boundary collocation method is used to calculate the stress intensity factors (SIFs) of an edgecracked body with linite dimensions subjected to a longitudinal shear. For the case of a beam whose cross-section is rectangular and s

The stress intensity factors of two cracks emanating from a hole in a finite plate is analysed by the Muskhelishviii formulation and boundary collocation method. For Mode I case, the present results compared very favorably with the existing solutions. For the mixed mode problems of inclined cracks,

The general solution of the stress intensity factor of a rectangular orthotropic sheet with an edge crack under anti-plane shear is found by means of the Fourier transform and Fourier series in the present paper. It is of interest to note that the general solution of this problem is identical with t