Asymptotic Analysis of Elastic Elliptic Membrane Shells in Frictional Contact: Exploring Wear Phenomena

Abstract

[Abstract] We consider a family of linearly elastic shells, all sharing the same middle surface, with thickness 2𝜀, clamped along their entire lateral face, which upon deformation may enter in frictional contact with a moving foundation along its lower face. As a result of friction, material might be removed from the interface, thus causing wear.We focus in the case of an elliptic membrane, for which the orders of applied body force density, surface tractions density, and compliance functions with respect to the small parameter 𝜀, representing thickness, are O(1), O(𝜀), and O(𝜀), respectively.We show that the solution pair (u(𝜀), w(𝜀)) of displacements and wear fields of the three-dimensional scaled variational contact problem converges to a pair of limit functions, (u, w), which can be identified with the solution pair of a limit two-dimensional variational problem, since u = (ui) is independent of the transverse variable, x3. Besides, not all the convergences happen in the same topologies, since u𝛼(𝜀) → u𝛼 in C([0, T];H1(Ω)), u3(𝜀) → u3 in C([0, T]; L2(Ω)), and w(𝜀) → w in C([0, T]; L2(𝜔)) as 𝜀 → 0, where 𝜔 is a domain in ℝ2 and Ω = 𝜔 × [−1, 1].