Approximation and characterization of quasi-static $H^1$-evolutions for a cohesive interface with different loading-unloading regimes

Matteo Negri; Enrico Vitali

doi:10.4171/ifb/396

JournalsifbVol. 20, No. 1pp. 25–67

Approximation and characterization of quasi-static $H^{1}$ -evolutions for a cohesive interface with different loading-unloading regimes

Matteo Negri
Università di Pavia, Italy
Enrico Vitali
Università di Pavia, Italy

Download PDF

Abstract

We consider the quasi-static evolution of a prescribed cohesive interface: dissipative under loading and elastic under unloading. We provide existence in terms of parametrized $B V$ -evolutions, employing a discrete scheme based on local minimization, with respect to the $H^{1}$ -norm, of a regularized energy. Technically, the evolution is fully characterized by: equilibrium, energy balance and Karush–Kuhn–Tucker conditions for the internal variable. Catastrophic regimes (discontinuities in time) are described by gradient flows of visco-elastic type.

Cite this article

Matteo Negri, Enrico Vitali, Approximation and characterization of quasi-static $H^{1}$ -evolutions for a cohesive interface with different loading-unloading regimes. Interfaces Free Bound. 20 (2018), no. 1, pp. 25–67

DOI 10.4171/IFB/396