About the mode II Dugdale crack solution

## Using Westergaard function in conventional and also in modified form the rigid body rotation at the crack tip and near the crack edges of mode II cracks are obtained. An attempt is made to explain the deformed configuration of a mode II crack. The rotation at the end of the plastic shear strip

hvo dimensional distribution of dislocations compatible with slip line theory is used to simulate the plastic flow near the mode II crack tip. On the basis of this model, the critical shear stress 7c is derived from the variational form of the energy principle. In comparison with the critical tensil

In this paper the mode I dynamic crack-tip field propagating in perfectly plastic solid is studied. The two dimensional constitutive relation is derived from the Mises yield condition and constrain condition E z = 0. Two stress functions +, q0 are introduced for plastic domain. By means of analysis

The assumption of the small scale yielding theory that the elastic field is moved to some place along the crack line has been abandoned in this paper. In the plastic region, the particular solutions of the stress field and the displacement field which previous works adopted have not been taken but t