Numerical analysis of elastic contact problems using the boundary integral equation method. Part 2: Results

A boundary integral equation formulation for the analysis of two-dimensional elastic contact problems with friction is developed. In this formulation, the contact equations are written explicitly with both tractions and displacements retained as unknowns. These equations are arranged such that a blo

## Abstract This work considers the methods for solving approximately the four types of boundary equations arising when the third initial boundary value problem of the theory of elasticity is solved with the help of retarded elastic potentials. The convergence of these methods is proved.

In Part 1 a method was proposed to evaluate the contact acoustic pressure and displacements of the surface of a composite thin-walled structure vibrating in an acoustic medium. Here the full formulation of a problem and its numerical aspect are examined in some detail. As an example, the method is a