Léo MORIN

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Activités de recherche au PIMM

  • Rupture ductile des métaux par croissance et coalescence de cavités
  • Plasticité cristalline par l'approche FDM
  • Modélisation du comportement de composites à matrice métallique

 

Activités d'enseignement au CNAM

  • Bases de la Mécanique des Milieux Continus - Master 2
  • Initiation à l'ingénierie assistée par ordinateur - Master 2
  • Endommagement des matériaux métalliques - Ingénieur Cnam
  • Selection des matériaux et logiciels métiers - Master 1
  • Comportement et propriétés des matériaux - DUT Mesures Physiques

 

Publications

  • Morin, L., Michel, J.C., Leblond, J.B. (2017). A Gurson-type layer model for ductile porous solids with isotropic and kinematic hardening. International Journal of Solids and Structures, 118-119, 167-178.
  • Morin, L., Leblond, J.B., Mohr, D., Kondo, D. (2017). Prediction of shear-dominated ductile fracture in a butterfly specimen using a model of plastic porous solids including void shape effects, European Journal of Mechanics-A/Solids, 61, 433-442.
  • Morin, L., Leblond, J.B., Benzerga, A.A., Kondo, D. (2016). A unified criterion for the growth and
    coalescence of microvoids. Journal of the Mechanics and Physics of Solids, 97, 19-36.
  • Morin, L., Leblond, J.B., Tvergaard, V. (2016). Application of a model of plastic porous materials
    including void shape effects to the prediction of ductile failure under shear-dominated loadings. Journal of the Mechanics and Physics of Solids, 94, 148-166.
  • Pensée, V., Morin, L., Kondo, D. (2016). A damage model for ductile porous materials with a spherically anisotropic matrix. International Journal of Damage Mechanics, 25, 315-335.
  • Cheng, L., Monchiet, V., Morin, L., de Saxcé, G., Kondo, D. (2015). An analytical constitutive damage model of ductile porous materials accounting for Lode angle dependency. Engineering Fracture Mechanics, 149, 119-133.
  • Morin, L., Leblond, J.B., Kondo, D. (2015). A Gurson-type criterion for plastically anisotropic solids
    containing arbitrary ellipsoidal voids. International Journal of Solids and Structures, 77, 86-101.
  • Morin, L., Leblond, J.B., Benzerga, A.A. (2015). Coalescence of voids by internal necking : theoretical estimates and numerical results. Journal of the Mechanics and Physics of Solids, 75, 140-158.
  • Morin, L., Kondo, D., Leblond, J.B. (2015). Numerical assessment, implementation and application of an extended Gurson model accounting for void size effects. European Journal of Mechanics-A/Solids, 51, 183-192.
  • Paux, J., Morin, L., Brenner, R., Kondo, D. (2015). An approximate yield criterion for porous single
    crystals. European Journal of Mechanics-A/Solids, 51, 1-10.
  • Leblond, J.B., Morin, L. (2014). Gurson’s Criterion and Its Derivation Revisited. Journal of Applied
    Mechanics, 81, 051012.
  • Morin, L., Madou, K., Leblond, J.B., Kondo, D. (2014). A new technique for finite element limit-analysis of Hill materials, with an application to the assessment of criteria for anisotropic plastic porous solids. International Journal of Engineering Science, 74, 65-79.
  • Madou, K., Leblond, J.B., Morin, L. (2013). Numerical studies of porous ductile materials containing
    arbitrary ellipsoidal voids-II : Evolution of the length and orientation of the void axes. European Journal of Mechanics-A/Solids, 42, 490-507.

 

Cursus

  • 2016-... : Maître de conférences au CNAM 
  • 2015-2016 : Post-doctorat au LMA à Marseille
  • 2012-2015 : Doctorat à Paris 6