Effects of ternary additions on the thermoelastic martensitic transformation of NiAl

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Nickel-rich beta-NiAl alloys, which are potential materials for high-temperature shape-memory alloys, show a thermoelastic martensitic transformation, which produces their shape memory effect. However, the transformation to Ni5Al3 phase during heating of NiAl martensite can interrupt the reversible martensitic transformation; consequently, the shape memory effect in NiAl martensite might not appear after heating. The phase transformation process in binary Ni-(34 to 37)Al martensite was investigated by differential thermal analysis (DTA) method, and we found that the condition of reversible martensitic transformation was not the beta --> Ni5Al3 transformation, but rather the M --> Ni5Al3 transformation occurring at 250 degreesC to 300 degreesC. Therefore, the transformation temperature of M --> Ni5Al3 determined the highest operating temperature for the shape memory effect. For verifying the critical temperature, the phase transformation process was investigated for eight ternary Ni-33Al-X alloys (X = Cu, Co, Fe, Mn, Cr, Ti, Si, and Nb). Only Ti, Si, and Nb additions were found to be effective in dropping the M-s temperature, and they facilitated the shape memory effect in Ni-33Al-X alloys. In particular, the addition of Si and Nb raised the transformation temperature of M --> Ni5Al3, a potentially beneficial effect for shape memory at higher temperatures.
Publisher
SPRINGER
Issue Date
2003-10
Language
English
Article Type
Article; Proceedings Paper
Keywords

AL-FE ALLOYS; CRYSTAL-STRUCTURE; PHASE; BEHAVIOR; NI5AL3; MICROSTRUCTURES; TEMPERATURES; DUCTILITY; NI-36.8; NI3AL

Citation

METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, v.34A, no.10, pp.2089 - 2095

ISSN
1073-5623
URI
http://hdl.handle.net/10203/83224
Appears in Collection
MS-Journal Papers(저널논문)
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