Achieving superior high-temperature mechanical properties in Al-Cu-Li-Sc-Zr alloy with nano-scale microstructure via laser additive manufacturing

被引:16
|
作者
Qi, Yang [1 ]
Zhang, Hu [1 ,4 ]
Yang, Xu [1 ]
Wang, Yilong [1 ]
Han, Changjun [2 ,5 ]
Fan, Wei [3 ]
Liang, Jiawei [1 ]
Zhu, Haihong [1 ]
机构
[1] Huazhong Univ Sci & Technol, Sch Opt & Elect Informat, Wuhan Natl Lab Optoelect, Wuhan, Hubei, Peoples R China
[2] South China Univ Technol, Sch Mech & Automot Engn, Guangzhou, Peoples R China
[3] Northwestern Polytech Univ, State Key Lab Solidificat Proc, Xian, Peoples R China
[4] Huazhong Univ Sci & Technol, Sch Opt & Elect Informat, Wuhan Natl Lab Optoelect, Wuhan 430074, Hubei, Peoples R China
[5] South China Univ Technol, Sch Mech & Automot Engn, Guangzhou 510641, Peoples R China
来源
MATERIALS RESEARCH LETTERS | 2024年 / 12卷 / 01期
基金
中国国家自然科学基金;
关键词
Additive manufacturing; aluminum alloys; laser powder bed fusion; nano-scale microstructure; high-temperature mechanical properties; MG ALLOY; PRECIPITATION KINETICS; CREEP RESISTANCE; STRENGTH; PARTICLES; SCANDIUM; ALSI10MG; FUSION; PHASE;
D O I
10.1080/21663831.2023.2285388
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Traditional aluminum alloys are unsuitable for structural use above 200 celcius due to precipitate coarsening or dissolution. Laser powder bed fusion (LPBF) additive manufacturing technique enables fabricating novel aluminum alloys with enhanced high-temperature properties. This study focuses on investigating the mechanical properties and microstructural evolution of a novel LPBF-fabricated Al-Cu-Li-Sc-Zr alloy at elevated temperatures. The microstructure is characterized by nano-scale grains and precipitates. Excellent grain structure and precipitate stability result in superior high-temperature mechanical properties. This study advances additively manufactured aluminum alloy design for potential high-temperature applications, offering valuable insights into their behavior in extreme environments.{GRAPHICAL ABSTRACT}
引用
收藏
页码:17 / 25
页数:9
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