Moving dislocation model of propagating self-similar interface crack

In this paper, the transient motion of an interface screw dislocation is first studied by the Fourier and Laplace transforms and Cagniard-de Hoop technique. Then the solution of a dislocation moving uniformly from rest is used as a fundamental solution to solve the anti-plane self-similar propagatio

At low crack propagation rate in metals and alloys the discrete nature of plasticity is essential to understand the fatigue phenomena. A short overview of the different types of performed discrete dislocation simulations of cyclically loaded cracks and their essential results are presented. The disc

Delaminations are a common mode of failure at interfaces between two material layers which have dissimilar elastic constants. There is a well-known oscillatory nature to the singularity in the stress fields at the crack tips in these bimaterial delaminations, which creates a lack of convergence in t

This paper presents a stochastic dislocation model of fatigue crack propagation in ductile alloys under variable-amplitude load. The model is built through collective motion of a large number of dislocations. Four basic dislocation mechanisms, the generation, gliding, annihilation and pinning of dis