7. Bibliography#

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  2. LECLERCQ S., DIARD, O., PROIX J.M.: « Impact study of the implementation of a library of behavioral laws and scale transition rules » Note EDF R&D HT-26/03/053/A.

  3. CAILLETAUD G.: « A micromechanical approach to inelastic behaviour of metals », Int. J. of Plasticity, 8, pp. 55-73, 1992.

  1. PILVIN P.: « The contribution of micromechanical approaches to the modelling of inelastic behaviour of polycrystals », Int. Conf. on Biaxial/Multiaxial Fatigue, France, France, ESIS/SF2M, pp.31‑46, 1994.

  1. BERVEILLER M., ZAOUI A.: « An extension of the self-consistent scheme to plasticity flowing polycrystal » J. Mech. Phys. Solids, 6, pp. 325-344, 1979.

    1. MONNET « A crystalline plasticity law for austenitic stainless steels », Note EDF R&D H-B60-2008-04690-EN

  1. N.Rupin « implementation of a new constitutive law based on dislocation dynamics for FCC materials » Note EDF -R&D: Note EDF R&D HT24 -2010-01128-EN.

  2. C.Petry « Procedure for generating polycrystalline aggregate meshes » Note EDF R&D H-T24-2008-03481

    1. ZEGHADI: « Effect of 3D morphology and grain size on the mechanical behavior of polycrystalline aggregates ». Thesis from the Ecole des Mines de Paris, 2005.

  1. N.Rupin: « Hot deformation of two-phase metals. Theoretical modeling and experimental comparisons ». Thesis from the Ecole Polytechnique, 2007.

  1. M.Fivel, S.Forest « Crystal plasticity and scale transition: the case of the single crystal ». Engineering techniques M4 016

  1. « Computational methods for plasticity » Wiley 2008, EA by Souza Neto, D. Peric, DRJ. owen

  1. « A computational procedure for rate-independent crystal plasticity » L. ANAND & M. KOTHARI, L. & M., J.Mech.Phys.Solids, vol. 44, no. 4, no. 4, pp.525-558, 1996

    1. Stolz. Continuous media in finite transformations: hyperelasticity, rupture, elasto-plasticity. Éditions de l’Ecole Polytechnique, 2002.

  1. Homogenization in the mechanics of materials », volume 2. Mr Bornert, P. Gilormini, T. Bertheau

    1. SCHWARTZ: « Non-local approach in crystalline plasticity: application to the study of the mechanical behavior of AISI 316LN steel under oligocyclic fatigue ». Thesis from the Ecole Centrale de Paris, June 2011.

  1. G.Monnet: « DELIVERABLE D1-2.9. Crystal plasticity constitutive law for irradiated RPV steel » Note EDF R&D H-T27-2011-02738-EN, December 2011.