C. L. Read-t, Plastic deformation and diffusionless phase changes in metals ? The gold-cadmium beta phase, Trans AIME, vol.189, pp.47-52, 1951.

S. P. Vokoun-d, D. G. , and S. R. , Recovery stress generation in shape memory Ti50Ni45Cu5 thin wires, Materials Science and Engineering, vol.286, pp.298-311, 2000.

K. H. Inagaki-n and . Sasaki-k, A One-Dimensional Modelling of Constrained Shape Memory Effect, Acta Materiala, vol.52, p.3375, 2004.

W. C. Duerig-t, An introduction to martensite and shape memory

T. Duerig, K. Melton, D. Stoeckel, and C. Wayman, Engineering aspects of shape memory alloys, pp.3-20, 1990.

C. J. Olson-g and . Cohen-m, Classification of displacive transformation

. Nishiyama-z, Martensitic transformation, pp.235-248, 1978.

B. J. Wayman-c, The Bain strain, lattice correspondances and deformations related to martensitic transformations, Metall. Trans, vol.3, pp.1113-1121, 1972.

K. L. Cohen-m, Martensitic transformations, Progress in Metal Physics

M. , T. And-tsuzaki, and K. , Transformation behaviour of ?-martensite in Fe-Mn-Si shape memory alloys, Proc. ICOMAT 92, pp.1151-1162, 1992.

P. E. Berveiller and M. , Technologie des alliages à mémoire de forme comportement mécanique et mis en oeuvre, Editions HERMES, 1994.

J. C. Iischner-b, Matériaux émergents, Presses polytechniques et universitaires romandes, 2001.

B. T. Tamarat-k and . Dubois-b, Plasticité de transformation et effet mémoire de forme de deux aciers de type Fe-Mn-Si et Fe-Mn-Cr-Ni-Si, la revue de métallurgie, pp.115-119, 2002.

B. H. Sidhom-h and . Touki-z, Martensite induite : incidence sur le comportement en´écrouissageen´écrouissage et sur la limite de formage de l'acier inoxydable AISI 304, Matériaux & Techniques, pp.11-12, 2000.

D. J. Parks-d, Effects of strain state on the kinetics of strain-induced martensite in steels, J. Mech. Phys. Solids, pp.46-1613, 1998.

G. S. , M. P. Pilvin-p, and T. S. Lovato-g, Gradient de microstructure induit par l'emboutissage d'aciers inoxydables métastables " Congrès Grandes vitesses et forts gradients, pp.18-19, 2004.

P. E. and E. A. Berveiller-m, Thermomechanical Behaviour of Shape Memory Alloys, Arch.Mech, vol.40, pp.5-6, 1988.

P. E. Bensalah-m and E. A. Berveiller-m, Thermomechanical Behaviour determining of Shape Memory Alloys using a thermodynamical potential optimising, pp.90-1587, 1993.

M. I. Xu, On the Pseudo-Elastic Hysteresis, Acta Mcta Metall.Mater, vol.39, issue.3, pp.263-271, 1991.

S. Q. Hwang-k, Micromechanics Modelling for the Constituve Behavoir of Polycristalline Shape Memory Alloy (partI and II), J.Mech. Phys. Solids, vol.41, issue.1, pp.1-33, 1993.

L. V. Malinin-v, Structure ?Analytical Theory of Strength, pp.471-477, 1993.

R. , B. Lexcellent, and C. , R-L models of pseudoelasticity and their specification for some shape memory alloy, European Journal of Mechanics -A/Solids, vol.12, issue.1, pp.21-50, 1994.

L. C. Brinson and A. Bekker, Phase diagram based description of the hysteresis behavior of shape memory alloys, Acta Materialia, vol.46, issue.10, pp.3649-3665, 1998.

G. I. and R. K. Tanaka-k, Description of an Fe-based shape memory alloy thermomechanical behavior in terms of the synthetic model, Computaional Materials Science, vol.13, issue.4, pp.218-226, 1999.

P. , M. Et, and L. Brinson, A three-dimensional phenomenological model for martensite reorientation in shape memory alloys, J. of Mechanics and Physics of Solids, vol.55, pp.2491-2511, 2007.

A. Sato, K. Soma, and T. Mori, Hardening due to pre-existing ??-Martensite in an Fe-30Mn-1Si alloy single crystal, Acta Metallurgica, vol.30, issue.10, pp.1901-1907, 1982.
DOI : 10.1016/0001-6160(82)90030-X

B. T. and J. F. Ben, Tensile Properties Of A Fe?32Mn?6Si shape memory alloy, Strength of Materials, vol.40, issue.2, pp.203-211, 2008.

Y. J. and C. H. Wayman-c, Development of Fe-based shape memory alloys associated with face-centered cubic-hexagonal close-packed martensitic transformations. I: Shape memory behaviour, Met. trans. A, pp.23-1439, 1992.

D. , T. Zadno, and R. , Engineering Aspects of Shape Memory alloys, Dutterworth- Heinemann Ltd, pp.369-93, 1990.

B. G. Richman-r, The Influence of Stress on Martensite-Start Temperatures in Fe?Ni?C .Alloys, Scripta Met, vol.4, pp.539-543, 1970.

P. M. Cizeron-g, Influence d'une contrainte externe sur la transformation martensitique de alliages fer-nickel, Mém. Scien. Rev. Met, p.74, 1977.

B. G. Richman-r, The plastic deformation-transformation of paramagnetic f.c.c. Fe-Ni-C alloys, Acta Met, vol.18, pp.673-681, 1970.

P. E. and E. A. Berveiller-m, Micromechanical modelling of superelasticity in shape memory alloys, pp.277-292, 1996.

B. P. Lexcellent-l, Micromechanical modelling of Cu-Al-Ni Shape memory alloys behaviour, Material Sience and Engineering, vol.378, pp.465-469, 2004.

J. X. Et and H. T. , Prediction of martensitic transformation start temperature Ms

F. Alloys, Materials science Forum Vols, pp.327-328219, 2000.

B. J. Cailletaud-g, C. J. Et, and F. S. , Mécanique non linéaires des matériaux, Hermès Science, 2001.

C. J. Et-cailletaud-g, Integration methods for comples plastic constituve equations», Computer Methods in Applied Mechanics and Engineering, vol.133, pp.125-155, 1996.

S. A. and M. E. Et, Three-dimonsional model for solids undergoing stress-induced phase transformation, European Journal of Mechanics A/ Solids, vol.17, pp.789-806, 1998.