Perturbation solution for near-tip fields of cracks growing in elastic perfectly-plastic compressible materials

In this paper, based on the three-dimensional flow theory of plasticity, the fundamental equations for the plane strain problem of elastic-perfectly plastic solids are presented. By using these equations the elastic-plastic fields near the crack tip growing step-by-step in an elastic incompressible-

## Ahatraet-A suitable elastic stress field near the crack line has been reasonably assumed and successful analysis has been made of a near crack line field for a quasistatically propagating plane stress tensile crack in an elasti~perfectly plastic material. A complete solution for the strain on t

An analytic study of the complete near-tip fields for steadily, yet deathly, growing interface cracks in dissimilar isotropic bimateriah is reported. Solutions of the crack tip stress and displacement fields are put in the form of complex power series, which are obtained with Radok's complex functio

Different from dense metals, many engineering materials exhibit pressure-sensitive yielding and plastic volumetric deformation. Adopting a yield criterion that contains a linear combination of the Mises stress and the hydrostatic stress, the analytic solutions of plane-stress mode I perfectly-plasti