Role of β(FeAl) nanoparticles in abnormal grain growth in the annealing of cast Cu-Al-Mn-Fe shape memory alloys

In this study, the low-cost production of Cu-Al-Mn-Fe shape memory alloy single crystals exceeding 46 mm by abnormal grain growth was realized only through annealing their cast alloys. The results show that the misorientation formed during annealing may be responsible for such abnormal grain growth...

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Published in	Progress in natural science Vol. 30; no. 4; pp. 510 - 516
Main Authors	Yang, Shuiyuan, Qing, Xinyu, Zhang, Jixun, Guo, Lipeng, Hong, Shen, Li, Mingpei, Zhang, Jinbin, Wang, Cuiping, Liu, Xingjun
Format	Journal Article
Language	English
Published	Elsevier B.V 01.08.2020
Subjects	Abnormal grain growth Dissolution Nanoparticles Shape memory alloys Superelasticity Abnormal grain growth Nanoparticles Shape memory alloys Superelasticity Dissolution
Online Access	Get full text
ISSN	1002-0071
DOI	10.1016/j.pnsc.2020.08.005

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Abstract	In this study, the low-cost production of Cu-Al-Mn-Fe shape memory alloy single crystals exceeding 46 mm by abnormal grain growth was realized only through annealing their cast alloys. The results show that the misorientation formed during annealing may be responsible for such abnormal grain growth process. It was confirmed that this misorientation resulted from the dissolution of bcc β(FeAl) nanoparticles during heat treatment at a sufficiently temperature of approximately 1173 K. The rate of migration of the abnormal grain boundary was experimentally measured to be approximately 9.3 × 10-5 m s-1 within 2 min of the commencement of abnormal grain growth. Additionally, the range of composition of the alloys that can lead to abnormal grain growth was determined. When the Cu-13.0Al-6.5Mn-3.2Fe single crystal close to the [100] direction was deformed to a pre-strain of 12%, full shape recovery happened without any residual strain. At that time, the superelastic strain was approximately 9%. Such a superelastic characteristic remained nearly constant over 50 cycles, showing excellent fatigue resistance. The superelastic properties of the present Cu-13.0Al-6.5Mn-3.2Fe single crystal are compared to those of commercial Ni-Ti-based shape memory alloys. Therefore, it can be considered as a new kind of superelastic material having practical applications. The obtained results should be of great significance in the development of Cu-based shape memory alloys. Furthermore, it is expected that a similar microstructure can be designed for the production of more metallic single crystals. [Display omitted] •Abnormal grain growth happens when annealing Cu-Al-Mn-Fe cast alloys.•Large shape memory single crystal up to 46 mm in length is obtained.•The dissolution of bcc β(FeAl) nanoparticles results in the misorientation.•Single crystal exhibits excellent superelasticity of 12% and fatigue resistance.
AbstractList	In this study, the low-cost production of Cu-Al-Mn-Fe shape memory alloy single crystals exceeding 46 mm by abnormal grain growth was realized only through annealing their cast alloys. The results show that the misorientation formed during annealing may be responsible for such abnormal grain growth process. It was confirmed that this misorientation resulted from the dissolution of bcc β(FeAl) nanoparticles during heat treatment at a sufficiently temperature of approximately 1173 K. The rate of migration of the abnormal grain boundary was experimentally measured to be approximately 9.3 × 10-5 m s-1 within 2 min of the commencement of abnormal grain growth. Additionally, the range of composition of the alloys that can lead to abnormal grain growth was determined. When the Cu-13.0Al-6.5Mn-3.2Fe single crystal close to the [100] direction was deformed to a pre-strain of 12%, full shape recovery happened without any residual strain. At that time, the superelastic strain was approximately 9%. Such a superelastic characteristic remained nearly constant over 50 cycles, showing excellent fatigue resistance. The superelastic properties of the present Cu-13.0Al-6.5Mn-3.2Fe single crystal are compared to those of commercial Ni-Ti-based shape memory alloys. Therefore, it can be considered as a new kind of superelastic material having practical applications. The obtained results should be of great significance in the development of Cu-based shape memory alloys. Furthermore, it is expected that a similar microstructure can be designed for the production of more metallic single crystals. [Display omitted] •Abnormal grain growth happens when annealing Cu-Al-Mn-Fe cast alloys.•Large shape memory single crystal up to 46 mm in length is obtained.•The dissolution of bcc β(FeAl) nanoparticles results in the misorientation.•Single crystal exhibits excellent superelasticity of 12% and fatigue resistance.
Author	Yang, Shuiyuan Zhang, Jixun Guo, Lipeng Hong, Shen Li, Mingpei Qing, Xinyu Wang, Cuiping Liu, Xingjun Zhang, Jinbin
Author_xml	– sequence: 1 givenname: Shuiyuan surname: Yang fullname: Yang, Shuiyuan email: yangshuiyuan@xmu.edu.cn organization: College of Materials of Xiamen University, Shenzhen Research Institute of Xiamen University, China – sequence: 2 givenname: Xinyu surname: Qing fullname: Qing, Xinyu organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China – sequence: 3 givenname: Jixun surname: Zhang fullname: Zhang, Jixun organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China – sequence: 4 givenname: Lipeng surname: Guo fullname: Guo, Lipeng organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China – sequence: 5 givenname: Shen surname: Hong fullname: Hong, Shen organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China – sequence: 6 givenname: Mingpei surname: Li fullname: Li, Mingpei organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China – sequence: 7 givenname: Jinbin surname: Zhang fullname: Zhang, Jinbin organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China – sequence: 8 givenname: Cuiping surname: Wang fullname: Wang, Cuiping organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China – sequence: 9 givenname: Xingjun surname: Liu fullname: Liu, Xingjun email: xjliu@hit.edu.cn organization: Fujian Key Laboratory of Materials Genome, Xiamen University, Xiamen, 361005, China
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Snippet	In this study, the low-cost production of Cu-Al-Mn-Fe shape memory alloy single crystals exceeding 46 mm by abnormal grain growth was realized only through...
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SubjectTerms	Abnormal grain growth Dissolution Nanoparticles Shape memory alloys Superelasticity
Title	Role of β(FeAl) nanoparticles in abnormal grain growth in the annealing of cast Cu-Al-Mn-Fe shape memory alloys
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