Microstructure, martensitic transformation and shape memory effect of polycrystalline Cu-Al-Mn-Fe alloys

YANG ShuiYuan; HONG Shen; LI MingPei; QING XinYu; GUO LiPeng; GUO YiHui; WANG CuiPing; LIU XingJun

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Microstructure, martensitic transformation and shape memory effect of polycrystalline Cu-Al-Mn-Fe alloys

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In this study, two Cu-Al-Mn-Fe polycrystalline alloys were prepared, and their microstructure, reversible martensitic transformation, mechanical properties and shape memory effects were investigated. The results show that the reversible martensitic transformation temperatures of the studied alloys are between room temperature and 373 K, which are suitable for practical applications. Two typed martensites of 18R and 2H coexist both in two alloys. The bcc β(FeAl) nanoparticles are Fe-rich, Mnrich and Cu-poor, whereas the martensite is Cu-rich, Fe-poor and Mn-poor. The size of nanoparticles ranges from tens to hundreds of nanometers. Full shape recovery property is displayed in Cu-12.9Al-4.5Mn-2.6Fe alloy all the time while applying different deformation from 5% to 8%. The maximum recoverable strain is up to 4.4% with a recovery rate of 100%.

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《中国科学》 |2021年第2期|P.400-406|共7页
作者
YANG ShuiYuan; HONG Shen; LI MingPei; QING XinYu; GUO LiPeng; GUO YiHui; WANG CuiPing; LIU XingJun;
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作者单位

College of Materials of Xiamen University Shenzhen Research Institute of Xiamen University Xiamen 361005 ChinaFujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

Fujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

Fujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

Fujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

Fujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

Fujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

Fujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

State Key Laboratory of Advanced Welding and Joining Harbin Institute of Technology(Shenzhen) Shenzhen 518055 ChinaFujian Key Laboratory of Materials Genome Xiamen University Xiamen 361005 China;

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原文格式 PDF
正文语种 chi
中图分类金属学与热处理;
关键词
shape memory alloy; microstructure; nanoparticles; transmission electron microscopy; martensitic transformation; shape memory effect;

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1. Martensitic and magnetic transformations of Ni-Ga-Fe-Co ferromagnetic shape memory alloys [J] . 今野阳介 ,OIKAWA Katsunari ,OMORI Toshihiro . 材料与冶金学报 . 2005,第2期
2. A Modified WLR Method for Crystallographic Analysis on Martensitic Transformations in Cu-base Shape Memory Alloys [J] . 王宝琦 ,谷南驹 ,殷福星 . 材料科学技术：英文版 . 1992,第5期
3. Effect of Titanium on the Martensitic Transformation Temperature of Cu-14Al-4Ni Shape Memory Alloy Rapidly Solidified [J] . Nicole Araujo ,Marília Bortolotto ,Marlon Silva . 材料科学与工程：中英文A版 . 2020,第003期
4. Martensitic transformation and magnetic properties of aged Ni-Fe-Ga-Ti shape memory alloy [J] . Nader El-Bagoury ,Mahmoud Mohamed Hessien ,Magdy Abdel Wahab Kaseem . 矿物冶金与材料学报 . 2013,第009期
5. 热处理工艺对低温Cu-Al-Mn-Fe记忆合金相变特性的影响 [C] . 朱昆鹏 ,许青 ,刘福顺 . 2010中国材料研讨会 . 2010
6. Microstructure and Properties ofγ-TiAl Based Alloys Fabricated by Selective Laser Melting Technique [A] . Adam Ismaeel Ibrahim . 2018

Microstructure, martensitic transformation and shape memory effect of polycrystalline Cu-Al-Mn-Fe alloys

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