Conclusions
A micromechanical model for the strain induced martensitic transformation of austenitic inclusions in an elastic-plastic matrix presented recently (Reisner et al., 1997; Reisner and Fischer, 1998a) is developed further to account for the latent heat of the martensitic transformation and the resulting heat transfer. The transformation kinetics of the retained austenite in tensile loading is predicted for two limiting cases of transformation conditions, namely isothermal and adiabatic (without heat conduction) ones, as well as for a fully coupled heat transfer-stress analysis. The lattice orientation of the retained austenite grains and its randomness (texture) influence the stability against SIMT strongly.
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Reisner, G., Yan, W.Y., Fischer, F.D. (1999). Micro- and Macroplasticity in two Phase Alloys Undergoing Martensitic Transformation. In: Bruhns, O.T., Stein, E. (eds) IUTAM Symposium on Micro- and Macrostructural Aspects of Thermoplasticity. Solid Mechanics and its Applications, vol 62. Springer, Dordrecht. https://doi.org/10.1007/0-306-46936-7_35
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DOI: https://doi.org/10.1007/0-306-46936-7_35
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