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Optimizing Ni-Ti-based shape memory alloys for ferroic cooling

A. Wieczorek, J. Frenzel, M. Schmidt, B. Maaß, S. Seelecke, A. Schütze, G. Eggeler.

Functional Materials Letters, World Scientific Publishing Company, 10, 1740001, (2017)

Abstract
Due to their large latent heats, pseudoelastic Ni–Ti-based shape memory alloys (SMAs) are attractive candidate materials for ferroic cooling, where elementary solid-state processes like martensitic transformations yield the required heat effects. The present work aims for a chemical and microstructural optimization of Ni–Ti for ferroic cooling. A large number of Ni–Ti-based alloy compositions were evaluated in terms of phase transformation temperatures, latent heats, mechanical hysteresis widths and functional stability. The aim was to identify material states with superior properties for ferroic cooling. Different material states were prepared by arc melting, various heat treatments and thermo-mechanical processing. The cooling performance of selected materials was assessed by differential scanning calorimetry, uniaxial tensile loading/unloading, and by using a specially designed ferroic cooling demonstrator setup. A Ni45Ti47.25Cu5V2.75 SMA was identified as a potential candidate material for ferroic cooling. This material combines extremely stable pseudoelasticity at room temperature and a very low hysteresis width. The ferroic cooling efficiency of this material is four times higher than in the case of binary Ni–Ti.


Keyword(s): Shape memory, ferroic cooling, martensitic transformation, hysteresis width, functional fatigue, refrigeration
Cite as: https://www.worldscientific.com/doi/abs/10.1142/S179360471740001X
DOI: 10.1142/S179360471740001X
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