A micromechanical model for the elasto-viscoplastic and damage behavior of a cohesive geomaterial
type de publication |
article dans une revue internationale avec comité de lecture |
date de publication |
2008 |
auteur(s) |
Abou-Chakra Guery Ariane; Cormery Fabrice; Su K.; Shao Jian-Fu; Kondo Djimédo |
journal (abréviation) |
Physics and Chemistry of the Earth, Parts A/B/C (Physics and Chemistry of the Earth, Parts A/B/C) |
volume (numéro) |
33 (supplément 1) |
| |
pages |
416 – 421 |
résumé |
A Hill type incremental homogenization method was recently proposed by Abou-Chakra Guéry et al. [Abou-Chakra Guéry, et al., 2008. A micromechanical model of elasto-plastic and damage behavior of a cohesive geomaterial. Int. J. Solid. Struct., 45(5), 1406–1429] for the elasto-plastic damage behavior of a cohesive geomaterial, the Callovo–Oxfordian argillite. The aim of this paper is then to extend the homogenization method to its time-dependent behavior. The argillite is now seen as a three phase composite with an elasto-viscoplasticity matrix and elastic damaged calcite grains and elastic quartz grains. Considering that the incremental formulation of Hill cannot rigorously be used, we proposed a new modified incremental method. A validation of its predictions against experimental data is then conducted. |
mots clés |
Geomaterials; Nonlinear homogenization; Elasto-viscoplasticity; Damage; Clay rock; Micromechanics |
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