The interface crack problem for a nonhomogeneous coating bonded to a homogeneous substrate

This paper is concerned with the plane strain problem of a crack that terminates perpendicularly at the interface of a bonded composite. An integral JR,, is proposed. By the asymptotic analysis, it is shown that, so laong as R o is within the K-dominant region, JR0 = KZ,R6Z"+'((1 -u2)/2pL2)H. Here,

Zero thickness crack tip interface elements for a crack normal to the interface between two materials are presented. The elements are shown to have the desired r\*-' (0 < I < 1) singularity in the stress field at the crack tip and are compatible with other singular elements. The stiffness matrices o

## Us&act-It is shown that the singularity of stresses near the tip of crack in an elastii: bi-material can be obtained by using degenerate triangular elements, the shape functions of which are derived from those classical isoparametric elements. A four node triangular element is tested on two dif

are examples of this type; see, e.g., the recent review paper [12] for references. The disadvantage of front tracking In this paper, a hybrid approach which combines the immersed interface method with the level set approach is presented. The fast methods is that it requires explicit tracking of the

Aimtract-Integral transform techniques are employed to determine the stress intensity factors of two collinear cracks which are parallel to the edges of a linear thermoelastic strip. The problem is reduced to a singular integral equation which is solved using numerical methods. Results for the stres