Development of High Performance of Al Alloys via Cryo‐Forming: A Review

Weight reduction is a major trend in the development of automotive, marine, and aerospace industry. Al alloys are the ideal choice for the lightweight design because of their superior mechanical properties and small mass density. In recent years, research results have demonstrated that plastic proce...

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Bibliographic Details
Published in:Advanced engineering materials 2021-06, Vol.23 (6), p.n/a
Main Authors: Xiong, Hanqing, Su, Lihong, Kong, Charlie, Yu, Hailiang
Format: Article
Language:English
Subjects:
aluminum alloys
asymmetric cryorolling
cryo-extrusion
cryo-forging
cryo-forming
cryorolling
mechanical properties
microstructure evolution
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Summary:Weight reduction is a major trend in the development of automotive, marine, and aerospace industry. Al alloys are the ideal choice for the lightweight design because of their superior mechanical properties and small mass density. In recent years, research results have demonstrated that plastic processing at cryogenic temperature can improve the mechanical properties of Al alloys. Herein, the mechanical properties of Al alloys at cryogenic environment as well as at room temperature are compared, and then the main progress is introduced in the development of fabrication of high‐performance Al alloys using cryo‐forming methods, such as cryorolling, asymmetric cryorolling, cryo‐extrusion, and cryo‐forging, with subsequent heat treatment. The grain refinement mechanism and the strengthening mechanism of Al alloys during various cryo‐forming processes are discussed. Finally, the potential development prospects of future researches in this field are proposed. The mechanical properties of Al alloys at cryogenic environment are compared, and then the main progress in the development of fabrication of high‐performance Al alloys using cryo‐forming methods, such as cryorolling, asymmetric cryorolling, cryo‐extrusion, and cryo‐forging, with subsequent heat treatment is introduced. The grain refinement mechanism and the strengthening mechanism of Al alloys during various cryo‐forming processes are discussed.
ISSN:1438-1656
1527-2648
DOI:10.1002/adem.202001533