The efficiency of direct integration methods in elastic contact-impact problems

A boundary integral equation algorithm for the contact analysis of elastic beams is presented in this paper. The analysis of this sort is complicated by the unknown and moving boundary points. The new algorithm incorporates the interface compatibility equation, derived from the principle of minimum

lt is shown that a modification of the integral equation formulation [I] can be used to find an expression of the unbounded contact stress of problems in the theory of elasticity. The modifications consist in reducing the problem to a Hilbert-type singular integral equation rather than that of the C

Let a circular flat punch penetrate a finitely thick slab resting on a rigid foundation. Lebedev and Ufliand showed that the determination of the stresses and displacements can be reduced to solving the Fredholm integral equation We show how to reduce this integral equation to a Cauchy system in wh

Following the framework and spirit of the comprehensive monograph of Kikuchi and Oden [N. Kikuchi and J.T. Oden, Contact Problems in Elasticity (SIAM, Philadelphia), 19881, some improvements in the proofs of convergence for the penalty method of dual problem and the error estimate for the finite ele

Numerical dispersion of two-dimensional finite elements was studied. The outcome of the dispersion study was verified by the numerical and analytical solutions to the longitudinal impact of two long cylindrical bars. In accordance with the results of the dispersion analysis it was demonstrated that