Reconciling viability and cost-effective shape memory alloy options – A review of copper and iron based shape memory metallic systems

Shape memory alloys (SMAs) are group of alloys that display anthropomorphic characteristics. These alloys recover their pre-deformed morphology when heated above their transition temperatures after being deformed in their lower temperature phase (martensitic phase). This unique material behavior is...

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Bibliographic Details
Published in:Engineering science and technology, an international journal an international journal, 2016-09, Vol.19 (3), p.1582-1592
Main Authors: Alaneme, Kenneth Kanayo, Okotete, Eloho Anita
Format: Article
Language:English
Subjects:
Copper alloys
Fe alloys
Ni–Ti
Phase stabilization
Shape memory alloys
Transition hysteresis
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Summary:Shape memory alloys (SMAs) are group of alloys that display anthropomorphic characteristics. These alloys recover their pre-deformed morphology when heated above their transition temperatures after being deformed in their lower temperature phase (martensitic phase). This unique material behavior is explored in industrial and technological applications where capacity for strain recovery is a key design parameter. Copper and iron based SMAs are largely viewed as potential cost effective substitute to Ni–Ti SMAs judging from their promising shape memory properties, damping capacity and other functional properties. Despite their outstanding potentials, the susceptibility of copper based SMAS to phase stabilization, transition hysteresis, aging and brittleness creates doubt on the possibility of transiting from the realm of potential to functional long term use in engineering applications. On the other hand the low percentage shape recovery in the Fe based SMAs also creates a gap between the theory and potential use of these alloys. This paper takes a critical look at the science of shape memory phenomena as applicable to copper and iron based SMA systems. It also covers the limitations of these systems, the effect of processing parameters on these alloys, proposed solutions to limitations associated with this group of shape memory alloys and thoughts for future consideration.
ISSN:2215-0986
2215-0986
DOI:10.1016/j.jestch.2016.05.010