Incremental Micromechanical Modelling of the Transformation Induced Plasticity

J.M. Diani; M. Berveiller; H. Sabar

doi:doi:10.1051/jp4:1996140

Numéro		J. Phys. IV France Volume 06, Numéro C1, Janvier 1996 MECAMAT'95 International Seminar on Mechanics and Mechanisms of Solid-Solid Phase Transformations


Page(s)		C1-419 - C1-427
DOI		https://doi.org/10.1051/jp4:1996140

MECAMAT'95
International Seminar on Mechanics and Mechanisms of Solid-Solid Phase Transformations

J. Phys. IV France 06 (1996) C1-419-C1-427
DOI: 10.1051/jp4:1996140

Incremental Micromechanical Modelling of the Transformation Induced Plasticity

J.M. Diani¹, M. Berveiller² and H. Sabar²

¹ Centre de Recherches et d'Etudes d'Arcueil, 94114 Arcueil, France
² LPMM, ISGMP, Ile du Saulcy, 57045 Metz, France

Abstract
Classical plasticity (dislocation motion) coupled to solid-solid phase transformation (lattice changes) is the primary cause of the special behaviour of TRIP (TRansformation Induced Plasticity) steels. Internal stresses associated with the phase change induces in fact a large additional plastic flow inside austenite and martensite. We propose a kinematic description of such a phenomenon based on a local decomposition of strain rate into an elastoplastic part and a given lattice inelastic strain rate field. Based on this description and using usual Green functions method, a concentration tensor for the total strain rate field is obtained. The self consistent approximation allows to determine the behavior of the equivalent material and the équivalent transformation strain rate.