On phase transformation models for thermo-mechanically coupled response of Nitinol

Fully coupled thermomechanical models for Nitinol at the grain level are developed in this work to capture the inter-dependence between deformation and temperature under non-isothermal conditions. The martensite transformation equations are solved using a novel algorithm which imposes all relevant c...

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Veröffentlicht in:	Computational mechanics 2011-08, Vol.48 (2), p.213-227
Hauptverfasser:	Sengupta, Arkaprabha, Papadopoulos, Panayiotis, Kueck, Aaron, Pelton, Alan R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Analysis Classical and Continuum Physics Computational Science and Engineering Deformation Engineering Finite element method Intermetallic compounds Intermetallics Martensite Martensitic transformations Mathematical analysis Mathematical models Nickel alloys Nickel titanides Original Paper Phase transitions Shape memory alloys Strain rate Technology application Temperature dependence Theoretical and Applied Mechanics Thermomechanical analysis Transformations
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container_title	Computational mechanics
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creator	Sengupta, Arkaprabha Papadopoulos, Panayiotis Kueck, Aaron Pelton, Alan R.
description	Fully coupled thermomechanical models for Nitinol at the grain level are developed in this work to capture the inter-dependence between deformation and temperature under non-isothermal conditions. The martensite transformation equations are solved using a novel algorithm which imposes all relevant constraints on the volume fractions. The numerical implementation of the resulting models within the finite element method is effected by the monolithic solution of the momentum and energy equations. Validation of the models is achieved by means of thin-tube experiments at different strain rates.
doi_str_mv	10.1007/s00466-011-0587-4
format	Article
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subjects	Algorithms Analysis Classical and Continuum Physics Computational Science and Engineering Deformation Engineering Finite element method Intermetallic compounds Intermetallics Martensite Martensitic transformations Mathematical analysis Mathematical models Nickel alloys Nickel titanides Original Paper Phase transitions Shape memory alloys Strain rate Technology application Temperature dependence Theoretical and Applied Mechanics Thermomechanical analysis Transformations
title	On phase transformation models for thermo-mechanically coupled response of Nitinol
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