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A theoretical model of martensitic transformations in magnetic shape memory alloys: Model formulation and variant reorientation

โœ Scribed by Vesselin Stoilov

Publisher
Elsevier Science
Year
2008
Tongue
English
Weight
244 KB
Volume
56
Category
Article
ISSN
1359-6454

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โœฆ Synopsis

A model for studying the martensitic variant pattern in ferromagnetic shape memory alloys (FSMAs) and its evolution is developed. In a departure from prior work, the model allows for complete three-dimensional description of the second-order phase transformations in FSMAs under multiaxial loading. The magnetic and crystallographic aspects of the twin boundary motion responsible for this phenomenon are described. Closed-form expressions for the twin boundary velocity and overall macro displacements are derived. Nucleation of variants and propagation of twin boundaries are investigated under combined magneto-mechanical loading and compared to recent experiments. The developed model is successfully used to predict the response of three-dimensional single crystal systems.

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Thermoelastic and strain-induced martensitic transformations of single crystalline Ni 49.7 Mn 29.1 Ga 21.2 magnetic shape memory alloys were investigated by simultaneous detection of the strain and magnetization. The transformation temperature to austenite was T A = 314 K. The thermoelastic transfor