Elastodynamic stress intensity factors of a crack near an interface

Time-harmonic elastodynamic analysis is presented for periodic antiplane cracks near and parallel to an interface of two joined half-planes of different material properties. The scattering problem by a single crack near and parallel to an interface is first formulated, and the scattered displacement

A numerical algorithm is presented for the problem of a crack along the interface of an elastic inclusion embedded in an elastic plane subjected to uniform stress at inÿnity. The algorithm is based on a Fredholm integral equation of the second kind and allows for fast and accurate solutions to geome

Ahatract-In the case where an interface crack exists in an intinite two-dimensional elastic bimaterial, the crack surface is insulated under traction-free conditions and the uniform heat flow vertical to the crack from an infinite boundary is given, temperature and stress potentials are obtained by

The stress intensity factors for bimaterial interface cracks are determined by the boundary element method employing the multi-region technique and the double-point concept. A formula relating the stress intensity factors to the crack surface displacement, which is applicable to both the homogeneous

The interaction of time-harmonic elastic waves with a surface-breaking crack, which is inclined under an arbitrary angle with the free boundary of an elastic half-plane, is investigated. Particular attention is devoted to the near-tip stress intensities induced by the incidence of elastic waves. By