Numerical evaluation of finite-part singular integrals in crack theory (the linear approximation)

The solution of systems of finite-part singular integral equations defined in L,,with many applications in mathematical physics is investigated. A finite-part singular integral representatron analysis in L,, is proposed, by proving that every system of finite-part singular integral equations is equi

The problem of a branched crack in a finite sheet is considered in this paper. The solution is given by Schwarz's alternating method, using two sequences of solutions. The first sequence corresponds to the finite, but untracked, body, and the finite element method was used, whereas for the other seq

## Abstract Recently, Gill and Chien introduced a new radial quadrature for multiexponential integrands (MultiExp grid) to deal with the radial part of the numerical integration. In this article, the MultiExp grid is studied and used to integrate the charge density. The MultiExp grid, along with an

An exact expression is derived for the finite-part integral #,r-'fdS over a triangular domain S . where r denotes the distance of the points of the triangle from one of its vertices and f is a linear function of the Cartesian co-ordinates. The more general case where r denotes the distance of the po