6. Bibliography#

[bib1]

J.R. Hugues: The finite element method, Prentice-Hall, Inc. Englewood Cliffs, N-J. 07632, 1987.

[bib2]

J.C. Simo, M.S. Rifai : A class of mixed assumed strain methods and the method of incompatible modes, Int. Junal Num. Meth. Engg, Vol. 29, pp1595-1638, 1990.

[bib3]

R.J. Flory : Thermodynamic relations of high elastic materials. Trans. Faraday Soc., vol.57, 1961, pp. 829-838.

[bib4]

V. Cano, E. Lorentz: Introduction dans le Code_Aster d’un module de comportement en grandes elastoplastic deformations with isotropic work hardening. Note EDF/DER HI‑74/98/006/0 of 26/08/1998

[bib5]

M. Girault, P. Raviart: Finite element methods for Navier-Stokes equations. Theory and algorithms. Springer Verlag, 1986.

[bib6]

P. Mialon, B. Thomas: Incompressibilité en plasticité: sous-intégration et autres techniques numériques. Note EDF/DER HI-72/6404 from 19/01/1990.

[bib7]

A.G.K. Jinka, M. Bellet, L. Fourment : A new three-dimensional finite element model for the simulation of powder forging processes: application to hot forming of P/M connecting road. Int. Junal Num. Meth. Engg,

Vol. 40, pp3955-3978, 1997.

[bib8]

S. Michel-Ponnelle, R. Bargellini: Validation d’éléments finis à 3 champs pour traiter les grandes déformations plastics and regularize the Rousselier model, Note EDF R&D H-B30-2009-00094, 2009

[bib9]

P. Germain, 1973, La méthode des puissances virtuelles en mécanique des milieux continus; Première partie : Second Gradient Theory, J. Méca. 12, 235-274

[bib10]

R. Chambon, D. Caillerie, T. Matsuchima,2001, Plastic continuum with microstructure, local second gradient theories for geomaterials: Localization studies, Int. J. Solids Structures 38, 8503-8527

[bib11]

C. Agelet De Saracibar, M. Chiumenti, Q. Valverde, M. Cervera, On the orthogonal subgrid scale pressure stabilization of finite deformation J2 plasticity, Computer Methods in Applied Mechanics and Engineering,

Vol. 195, no. 9-12, pp. 1224-1251, 2006.