The work hardening behaviour of Fe-Mn-C twinning induced plasticity (TWIP) steels with a wide compositional range has been investigated. Based on the consideration that twinning provides a dynamic composite effect resulting in high work hardening rate in TWIP steels, the present work proposes a model to describe such behaviour as a function of chemical composition. The model predictions are in good agreement with experimental observations.
RémyL.: PhD thesis, ‘Maclage et transformation martensitique CFC—> HC induite par déformation plastique dans les alliages austénitiques à basse énergie de défault d'empilement des systèmes Co-Ni-Cr-Moet Fe-Mn-Cr-C'Orsay University, Paris, France, 1976.
2.
ScottC., AllainS., FaralM. and GueltonN.: La Revue Je Metalliurgie-CIT, 2006, 293, 103.
3.
BouazizO and GueltonN.: Mater. Sci. Eng. A.2001, A246, 319–321.
4.
AllainS., ChateauJ.P.. DahmounD. and BouazizO.: Mat. Sci. Eng. A, 2004, 272, 387–389.
5.
AllainS., ChateauJ. P. and BouazizO.: Mater. Sci. Eng. A.2004, A143, 387–389.
