Integral equation methods in plane-strain elasticity with boundary reinforcement

The boundary integral equation method is used to solve the interior and exterior Dirichlet, Neumann and mixed problems of plane micropolar elasticity. In the exterior case, a specific far-field pattern for the displacements and microrotation is introduced without which the classical scheme fails to

The hypersingular integral equation approach is suggested to solve the plane elasticity crack problem with circular boundary. The complex variable function method is used in the formulation. In the equation the crack opening displacement function is used as the unknown function, and the traction on

## flow. With N points in the discretization of the boundary, direct inversion of the resulting linear systems requires We present a class of integral equation methods for the solution of biharmonic boundary value problems, with applications to two-O(N 3 ) operations. Most iterative methods, on th