Effect of aging time on microstructure and properties of as-cast Fe56.5Ni30Al10.5Nb3 shape memory alloy

Effect of aging time on microstructure and properties of as-cast Fe56.5Ni30Al10.5Nb3 shape memory alloy

A Co-free Fe56.5Ni30Al10.5Nb3 (atom fraction/%) alloy was developed. In the preparation, the as-cast alloy was subjected to aging treatment at 650 ℃ and followed solution treatment directly. Scanning electron microscope (SEM) and X-ray diffractometer (XRD) were used to analyze the microstructure and...

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Bibliographic Details
Published in:Hang kong cai liao xue bao Vol. 40; no. 5; pp. 13 - 19
Main Authors: Chen, Zhaoxia, Peng, Wenyi
Format: Journal Article
Language:Chinese
Published: Beijing Beijing Institute of Aeronautical Materials 01-10-2020
Journal of Aeronautical Materials
Subjects:
Aging
Aging (metallurgy)
Beta phase
Casting alloys
Chemical precipitation
Compressive properties
Compressive strength
Electron backscatter diffraction
fe-ni-al-nb
Gamma-prime phase (crystals)
Grain boundaries
Hardness tests
Microstructure
Precipitates
Room temperature
Shape memory alloys
Solution heat treatment
Superelasticity
texture
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Summary:A Co-free Fe56.5Ni30Al10.5Nb3 (atom fraction/%) alloy was developed. In the preparation, the as-cast alloy was subjected to aging treatment at 650 ℃ and followed solution treatment directly. Scanning electron microscope (SEM) and X-ray diffractometer (XRD) were used to analyze the microstructure and phases of the alloy. At the same time, the hardness test, compressive strength test, superelasticity test and electron backscatter diffraction (EBSD) test were performed. The results show that, when the aging time range from 0 to 95 h, the alloy can exhibit superelasticity at room temperature with the maximum superelastic strain of 10.62%. There are nano-sized γ′ precipitates and fine β precipitates in the alloy. The γ′ phase is formed in the grain interiors and is most densely distributed when the aging time is 70 h. After the aging time exceeds 70 h, the γ′ phase enters the growth stage. The β phase can be formed both in the grain interiors and in the grain boundaries, and the amount of β precipitates increases
ISSN:1005-5053
1005-5053
DOI:10.11868/j.issn.1005-5053.2020.000015