Emile Roux : Curriculum Vitae
Phd in Numerical mechanics
Doctoral Research, CEMEF, Mines ParisTech, In partnership with CETIM (French Technical Centre for Mechanical Industry).
2008-2011
Dissertation title: Mechanical joining: strategies dedicated to processes optimization and mechanical behavior identification. (On line version)
-Development of an optimization / inverse analysis framework in C++.
-Set-up of a procedure for ductile damage parameter identification by inverse analysis for forming processes using global and local measurements (DIC).
-Optimization of assembly components accounting for both, the joining process and the final mechanical strength.
Articles
Roux, E., Shakoor, M., Bernacki, M., & Bouchard, P.-O. (2014). A new finite element approach for modelling ductile damage void nucleation and growth?analysis of loading path effect on damage mechanisms. Modelling and Simulation in Materials Science and Engineering, 22(7), 075001. https://doi.org/10.1088/0965-0393/22/7/075001
Roux, E., Bernacki, M., & Bouchard, P. O. (2013). A level-set and anisotropic adaptive remeshing strategy for the modeling of void growth under large plastic strain. Computational Materials Science, 68, 32–46. https://doi.org/10.1016/j.commatsci.2012.10.004
Roux, E., & Bouchard, P.-O. (2013). Kriging metamodel global optimization of clinching joining processes accounting for ductile damage. Journal of Materials Processing Technology, 213(7), 1038–1047. https://doi.org/10.1016/j.jmatprotec.2013.01.018
Saby, M., Bernacki, M., Roux, E., & Bouchard, P.-O. (2013). Three-dimensional analysis of real void closure at the meso-scale during hot metal forming processes. Computational Materials Science, 77, 194–201. https://doi.org/10.1016/j.commatsci.2013.05.002
Conferences
Bouchard, P.-O., Roux, E., & Bernacki, M. (2013). Finite element modeling of void nucleation, growth and coalescence for large plastic strain and complex loading paths. In Proceedings Third International Conference on Computational Modeling of Fracture and Failure of Materials and Structures.
Roux, E., Bernacki, M., & Bouchard, P.-O. (2013). Modélisation des micro mécanismes d’endommagement ductile par une approche couplant fonctions level-set et adaptation anisotrope de maillage. In CSMA 2013-11ème colloque national en calcul des structures.
Bouchard, P.-O., Roux, E., El Khaoulani, R., Lebret, G., & Bernacki, M. (2011). Anisotropic mesh adaptation for ductile damage and fracture modelling. In CFRAC 2011-International Conference on Computational Modeling of Fracture and Failures-Center for Numerical Methods in Engineering.
Bouchard, P.-O., Gachet, J.-M., & Roux, E. (2011). Ductile damage parameters identification for cold metal forming applications. In AIP Conference Proceedings (Vol. 1353).
Roux, E., & Bouchard, P.-O. (2011). Numerical investigation of ductile damage parameters identification: benefit of local measurements. In Proceedings of The 7th International Conference on Inverse Problems in Engineering (ICIPE).
Roux, E., Bernacki, M., & Bouchard, P.-O. (2011). Numerical modelling of ductile damage voids growth mechanism using a level-set technique and anisotropic mesh adaptation. In CFRAC 2011-International Conference on Computational Modeling of Fracture and Failures-Center for Numerical Methods in Engineering.
Chenot, J.-L., Bouchard, P.-O., Fourment, L., Lasne, P., & Roux, E. (2011). Optimization of Metal Forming Processes for Improving Final Mechanical Strength. In Proceedings XI International Conference on Computational Plasticity. Fundamentals and Applications-COMPLAS XI.
Roux, É., & Bouchard, P.-O. (2010). Ductile Damage Material Parameter Identification: Numerical Investigation. In Proceedings of the Tenth International Conference on Computational Structures Technology.
Roux, E., Thonnerieux, M., & Bouchard, P. O. (n.d.). Numerical investigation of parameters identification methodologies for ductile damage materials.