Effect of Aging on the Structure and Transformation Behavior of Cu–12Al–3.5Ni–0.7Ti–0.05RE High Temperature Shape Memory Alloy

Effect of Aging on the Structure and Transformation Behavior of Cu–12Al–3.5Ni–0.7Ti–0.05RE High Temperature Shape Memory Alloy

In this study, the effect of isothermal aging on the thermoelastic martensitic transformation and microstructure of the as-quenched Cu–12Al–3.5Ni–0.7Ti–0.05RE (RE = Ce, La) high temperature shape memory alloy was studied. The results showed that the alloy microstructure and martensitic transformatio...

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Bibliographic Details
Published in:Metals and materials international Vol. 26; no. 9; pp. 1354 - 1365
Main Authors: Dalvand, Pegah, Raygan, Shahram, López, Gabriel A., Meléndez, Mariano B., Chernenko, Volodymyr A.
Format: Journal Article
Language:English
Published: Seoul The Korean Institute of Metals and Materials 01-09-2020
Springer Nature B.V
대한금속·재료학회
Subjects:
Aging
Aging (metallurgy)
Bainitic transformations
Characterization and Evaluation of Materials
Chemistry and Materials Science
Damping capacity
Engineering Thermodynamics
Gamma-2 phase (crystals)
Heat and Mass Transfer
Heat resistant alloys
High temperature
Machines
Magnetic Materials
Magnetism
Manufacturing
Martensitic transformations
Materials Science
Metallic Materials
Microstructure
Phase transitions
Processes
Shape memory alloys
Solid Mechanics
Transformation temperature
재료공학
Cu–Al–Ni–Ti–RE high temperature shape memory alloy
Aging
Martensitic transformation
Rare earth elements
Precipitates
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Summary:In this study, the effect of isothermal aging on the thermoelastic martensitic transformation and microstructure of the as-quenched Cu–12Al–3.5Ni–0.7Ti–0.05RE (RE = Ce, La) high temperature shape memory alloy was studied. The results showed that the alloy microstructure and martensitic transformation are strongly influenced by the aging temperature rather than aging time. During aging at 350 °C the alloy was prone to both the precipitation of the γ 2 phase and the bainitic transformation, resulting in a loss of martensitic transformation and damping capacity. The prolonged aging at 350 °C caused a decomposition of parent phase into the equilibrium γ 2 phase alongside the α phase which produced a significant hardness increment. On the other hand, aging at 250 °C affected the microstructure only slightly producing insignificant shift in the transformation temperatures. It was found that, the secondary phases including Ti-rich X-phase and the RE-rich phase were not influenced by the aging process. The results prescribe a high temperature order of the stability of martensitic transformation for this new alloy which is important for its high temperature shape memory applications. Graphical Abstract
ISSN:1598-9623
2005-4149
DOI:10.1007/s12540-019-00376-2