Analytical and numerical relaxation results for models in soil mechanics
- Klaus Hackl,
- Florian Behr,
- Georg Dolzmann,
- Ghina Jezdan
Klaus Hackl
Institute of Mechanics of Materials, Ruhr University Bochum
Corresponding Author:klaus.hackl@rub.de
Author ProfileFlorian Behr
Faculty of Mathematics, University of Regensburg
Georg Dolzmann
Faculty of Mathematics, University of Regensburg
Ghina Jezdan
Institute of Mechanics of Materials, Ruhr University Bochum
Abstract
A variational model of pressure-dependent plasticity employing a time-incremental setting is introduced. A novel formulation of the dissipation potential allows one to construct the condensed energy in a variationally consistent manner. For a one-dimensional model problem, an explicit expression for the quasiconvex envelope can be found which turns out to be essentially independent of the original pressure-dependent yield surface. The model problem can be extended to higher dimensions in an empirical manner. Numerical simulation exhibit well-posed behavior showing mesh-independent results.