Identification of optimized Ti–Ni–Cu shape memory alloy compositions for high-frequency thin film microactuator applications

Authors :: Robert Zarnetta
M Ehmann
Alan Savan
Alfred Ludwig
Source :: Smart Materials and Structures. 19:065032
Publication Year :: 2010
Publisher :: IOP Publishing, 2010.
Abstract: Ti–Ni–Cu shape memory thin films within a broad composition range were investigated by the cantilever deflection method using combinatorial methods. Optimal compositions with improved functional properties, i.e. large recovery stress, high transformation temperatures, low thermal hysteresis width and small temperature interval of transformation, were identified using a newly defined figure of merit. Of the investigated alloys, Ti50Ni41Cu9 and Ti45Ni46Cu9 exhibit the best shape memory properties for compositions showing a and a -phase transformation, respectively.

Subjects :: Thermal hysteresis
Materials science
Shape-memory alloy
Composition (combinatorics)
Condensed Matter Physics
Atomic and Molecular Physics, and Optics
Transformation (music)
Microactuator
Mechanics of Materials
Phase (matter)
Signal Processing
Electronic engineering
Figure of merit
General Materials Science
Electrical and Electronic Engineering
Thin film
Composite material
Civil and Structural Engineering

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