A three-dimensional phenomenological model for martensite reorientation in shape memory alloys

In this work, we propose a macroscopic phenomenological model that is based on the classical framework of thermodynamics of irreversible processes and accounts for the effect of multiaxial stress states and non-proportional loading histories. The model is able to account for the evolution of both tw...

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Veröffentlicht in:	Journal of the mechanics and physics of solids 2007-11, Vol.55 (11), p.2491-2511
Hauptverfasser:	Panico, M., Brinson, L.C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Constitutive behavior Multiaxial non-proportional loading Phase transformation Shape memory alloys Simulations
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container_title	Journal of the mechanics and physics of solids
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creator	Panico, M. Brinson, L.C.
description	In this work, we propose a macroscopic phenomenological model that is based on the classical framework of thermodynamics of irreversible processes and accounts for the effect of multiaxial stress states and non-proportional loading histories. The model is able to account for the evolution of both twinned and detwinned martensite. Moreover, reorientation of the product phase according to loading direction is specifically accounted for. Towards this purpose the inelastic strain is split into two contributions deriving, respectively, from creation of detwinned martensite and reorientation of previously existing martensite variants. Computational tests demonstrate the ability of the model to simulate the main aspects of the shape memory response in a one-dimensional setting and some of the features that have been experimentally found in the case of multiaxial non-proportional loading histories. Experimental non-proportional loading paths have also been simulated and a good qualitative agreement between numerical and experimental response is observed.
doi_str_mv	10.1016/j.jmps.2007.03.010
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subjects	Constitutive behavior Multiaxial non-proportional loading Phase transformation Shape memory alloys Simulations
title	A three-dimensional phenomenological model for martensite reorientation in shape memory alloys
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