Revisiting the Persson theory of elastoplastic contact: A simpler closed-form solution and a rigorous proof of boundary conditions

Abstract

Persson's theory of contact is extensively used in the study of the purely normal interaction between a nominally flat rough surface and a rigid flat. In the literature, Persson's theory was successfully applied to the elastoplastic contact problem with a scale-independent hardness H. However, it yields a closed-form solution, P(p, ), in terms of an infinite sum of sines. In this study, P(p, ) is found to have a simpler form which is a superposition of three Gaussian functions. A rigorous proof of the boundary condition P(p=0, )=P(p=H, ) = 0 is given based on the new solution.