Accuratte evaluation of the singular integrals over quadratic boundary elements in 2D stress analysis

In this paper, a quadratic polynomial expression is used as the displacement shape function to develop the Boundary Contour Method. In this work, the divergence free property of the J integral is proved; the evaluation of the J integral is transformed, through an application of Stokes' theorem, into

The paper concentrates on the numerical evaluation of nearly singular kernel integrals commonly encountered in boundary element analysis. Limitations of the method developed recently by Huang and Cruse (1993) for the direct evaluation of nearly singular kernel integrals are analysed and pointed out.

The paper attempts to improve the efficiency of a general method developed previously for computing nearly singular kernel integrals. Three new formulations are presented by following an approach similar to that used in the previous method. Their numerical efficiency is compared with the previous me

The dominant cost of multiplying the coefJicient matrix resultingfrom the finite-element-boundary-integral analysis of scattering from coated metallic structures is due to the dense submatrices arising from the discretization of the boundary integral. Direct multiplication of these dense submatrices