A quantitative discrete element model to investigate sub-surface damage due to surface polishing

ANDRE, Damien; CHARLES, Jean-Luc; NEAUPORT, Jérôme; IORDANOFF, Ivan

Communication avec acte

Auteur

ANDRE, Damien

CHARLES, Jean-Luc

NEAUPORT, Jérôme
21150 Centre d'études scientifiques et techniques d'Aquitaine (CESTA-CEA) [CESTA]

IORDANOFF, Ivan

URI

http://hdl.handle.net/10985/8265

DOI

10.1115/ESDA2012-82509

Date

2012

Résumé

This work is a continuation of a previous study that investigated sub-surface damage in silica glass due to surface polishing. In this previous study, discrete element models have shown qualitatively good agreement with experiments. The presented work propose a model allowing quantitative results by focusing on the continuous part of the problem. Special attemption was given to the discrete element model of silica glass considered as perfectly isotropic, elastic and brittle. To validate this approach, numerical results are compared to experimental data from literature.

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