The properties of two-phase Ni–Al–Fe shape memory alloys in the virgin and shape-memory-cycled states

Five polycrystalline Ni–Al–Fe alloys with 14–26 (at.)% Al and 16–26% Fe were made and heat-treated to have β and γ dual phases with from 87% to less than 1% of β phase and to exhibit M s temperatures at about 300 K. Depending on the β phase fraction and prestraining temperature, the alloys showed ps...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 1999-12, Vol.273, p.420-424
Main Authors: Ono, N, Tsukahara, A, Kainuma, R, Ishida, K
Format: Article
Language:English
Subjects:
Dual phases
Ni–Al–Fe alloys
Shape memory alloys
Shape memory cycling
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Summary:Five polycrystalline Ni–Al–Fe alloys with 14–26 (at.)% Al and 16–26% Fe were made and heat-treated to have β and γ dual phases with from 87% to less than 1% of β phase and to exhibit M s temperatures at about 300 K. Depending on the β phase fraction and prestraining temperature, the alloys showed pseudoelastic strain recovery ratio from 1–2 up to 35% and shape memory strain recovery ratio from over 10–90% after prestraining by up to 1%. In the alloy with 87% β phase, the latter ratio reached 100% against 0.8% prestrain after a few cycles of shape memory training. Observed results were analyzed based on a model that assumed a simple linear mixture of the properties of the β and γ phases. The results of the analysis suggest that the γ phase after the training in certain conditions is almost elastic and thus acts as a bias spring.
ISSN:0921-5093
1873-4936
DOI:10.1016/S0921-5093(99)00310-X