An exact elastic-perfectly plastic solution for antiplane problem of a crack in anisotropic plane of finite width

Ahatract-The inclusion in some materials often plays an irn~~t role to their fractures. In order to study the fracture due to inclusion, the piastic region around the inclusion must be studied in detail. This paper deals with the elasto-perfectly plastic antiplane problem of a rigid line inclusion i

This paper deals with the elasto-perfectly plastic antiplane problem of collinear rigid line inclusions in an infinite plane. The plastic region near the tip of the rigid line is studied and an exact solution in closed form is obtained by the methods of Rice and Myskhelishvili.

In this paper, the elastic-perfectly plastic antiplane problem of a double period uniform distribution crack field in the anisotropic infinite plane is studied. Using the method of conformal mapping, an exact solution in closed form is obtained.

## A~~ct~uasistatically propagating plane stress tensile and anti-plane strain cracks in an elastic-~~ectIy-plastic solid have been studied. In the plastic loading zone, based on the basic equations of the Prandtl-Reuss flow rule and the Huber-Mises yield criterion, the stresses and particle veloc

In the present report we investigate the formulae of the stress field in the neighbourhood of a plane crack of arbitrary shape in an anisotropic material for the twodimensional case. Moreover we consider the expression of the stress field in the neighbourhood of a plane crack in a transversely isotr

Aktraet--In a previous paper [l], an indirect boundary-integral approach was developed for the treatment of a finite, plane, iinoar-elastic region weakened by a hole of arbitary shape. It was suggested there that this method would yield excellent results on and near the hole boundary. In this prese