An integral equation method in dynamic fracture mechanics

In this paper the direct boundary integral equation method is applied to dynamic fracture mechanics, and the computational results are compared with experimental values. The comparison shows that the authors' computation is successful.

Within the assumptions of linear elastic fracture mechanics, dynamic stresses generated by a crack growth event are examined for the case of an infinite body in the state of plane strain subjected to mode I loading. The method of analysis developed in this paper is based on an integral equation in

Developments in the use of the crack tip energy flux integral in computational dynamic fracture mechanics over the past few years are reviewed. An expression for the crack tip energy flux in terms of near tip mechanical fields which is valid for general material response is derived. It is then demon

In this paper, a quick and efficient means of determining stress intensity factors, K~ and Kn, for cracks in generally orthotropic elastic bodies is presented using the numerical boundary integral equation (BIE) method. It is based on the use of quarter-point singular crack-tip elements in the quadr

A boundary element formulation, which does not require domain integration, is presented for a general dynamic crack problem in a linear elastic material. The problem is solved using the dual boundary element method, that is, the displacement equation is applied to one of the crack surfaces and the t