Proceedings of the Royal Society of Edinburgh: Section A Mathematics
- Proceedings of the Royal Society of Edinburgh: Section A Mathematics / Volume 138 / Issue 06 / December 2008, pp 1363-1401
- Copyright © Royal Society of Edinburgh 2008
- DOI: http://dx.doi.org/10.1017/S0308210506000709 (About DOI), Published online: 12 November 2008
Research Article
Homogenization of the nonlinear Maxwell model of viscoelasticity and of the Prandtl—Reuss model of elastoplasticity
Augusto Visintina1
a1 Dipartimento di Matematica, Università degli Studi di Trento, via Sommarive 14, 38050 Povo (Trento), Italy (visintin@science.unitn.it)
Abstract
This paper deals with processes in nonlinear inelastic materials whose constitutive behaviour is represented by the inclusion
here we denote by σ the stress tensor, by ε the linearized strain tensor, by B(x) the compliance tensor and by ∂
(·, x) the subdifferential of a convex function (·, x). This relation accounts for elasto-viscoplasticity, including a nonlinear version of the classical Maxwell model of viscoelasticity and the Prandtl—Reuss model of elastoplasticity.
The constitutive law is coupled with the equation of continuum dynamics, and well-posedness is proved for an initial- and boundary-value problem. The function and the tensor B are then assumed to oscillate periodically with respect to x and, as this period vanishes, a two-scale model of the asymptotic behaviour is derived via Nguetseng's notion of two-scale convergence. A fully homogenized single-scale model is also retrieved, and its equivalence with the two-scale problem is proved. This formulation is non-local in time and is at variance with that based on so-called analogical models that rest on a mean-field-type hypothesis.
(Received June 02 2006)
(Accepted October 24 2007)
