Discrete-Continuum Coupling Method to Simulate Highly Dynamic Multi-Scale Problems ― Simulation of Laser-induced Damage in Silica Glass
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Complex behavior models (plasticity, cracks, visco elascticity) face some theoretical difficulties for the determination of the behavior law at the continuous scale. When homogenization fails to give the right behavior law, a solution is to simulate the material at a meso scale in order to simulate directly a set of discrete properties that are responsible of the macroscopic behavior. The discrete element model has been developed for granular material. The proposed set shows how this method is capable to solve the problem of complex behavior that are linked to discrete meso scale effects. The first book solves the local problem, this second title presents a coupling approach to link the structural effects to the local ones, the third book presents the software workbench that includes all the theoretical developments.

Mohamed Jebahi is a post-doctoral researcher at the Institute of Mechanics and Engineering of Bordeaux, France, and Laval University, Quebec, Canada.

Frederic Dau is Assistant Professor at Ecole Nationale Superieure d’Arts et Metiers,?ParisTech, France.

Jean-Luc Charlesis Assistant Professor?at Ecole Nationale Superieure d&'Arts et Metiers, ParisTech, France.

Ivan Iordanoff is Director of Research and Innovation at Ecole Nationale Superieure d'Arts et Metiers, ParisTech, France.