Propagation predictions for branched cracks by the strain energy density criterion

Ah&met-Sib's fracture criterion based on strain energy density, S, for mixed mode crack extension under static loading is extended to dynamic mixed mode, K, and K,,, crack propagation. Influence of the second order term, uox, which represents the non-singular constant stress acting parallel to the d

The strain energy criterion for crack propagation proposed in the paper is based on the principle that the direction of crack propagation takes place along the direction where the distance from the crack tip to a certain contour line of constant distortional strain energy density is minimum, and the

Abstrati-Using a fracture mechanics method, crack branching data from three investigations were put on a comparable basis and used to demons~~e a strong correlation between the stress intensity at crack branching and Young's modulus. This strong correlation suggests a strain intensity criterion fbr

Stable ductile fracture of a typical metal alloy is found to be governed by the condition dS/da = const., i.e. the rate change of the strain energy density S with crack length 2n (or a) remained constant. Since fracture and/or yielding are toad rate dependent, the incremental theory of plasticity is

The singular expansions for elastic stresses and displacements at a crack tip are incapable of describing some aspects of local behaviour adequately. In this paper we give the correct form of the next terms in the expansions for the angled crack problem. A formula using first and second order terms