Topological sensitivity analysis of a multi-scale constitutive model considering a cracked microstructure

Abstract

This paper deals with the sensitivity analysis of the macroscopic elasticity tensor to topological microstructural changes of the underlying material. In particular, the microstucture is topologicaly perturbed by the nucleation of a small circular inclusion. The derivation of the proposed sensitivity relies on the concept of topological derivative, applied within a variational multi-scale constitutive framework where the macroscopic strain and stress at each point of the macroscopic continuum are defined as volume averages of their microscopic counterparts over a representative volume element (RVE) of material associated with that point. We consider that the RVE can contain a number of voids, inclusions and/or cracks. It is assumed that non-penetration conditions are imposed at the crack faces, which do not allow the opposite crack faces to penetrate each other. The derived sensitivity leads to a symmetric fourth-order tensor field over the unperturbed RVE domain, which measures how the macroscopic elasticity parameters estimated within the multi-scale framework changes when a small circular inclusion is introduced at the micro-scale level. Copyright © 2009 John Wiley & Sons, Ltd.