Mechanical properties optimization for an AZ80 Mg alloy via nano-structural hierarchy
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Updated Time:2024-05-01 11:45:14 Hits:647
Oral Presentation
Abstract
Compared with lightweight Al and Ti alloys, Mg alloys have relatively low strength and plasticity due to limited basal plane slipping systems, and strengthening Mg alloy via deformation is full of challenges. Up to now, preparing strong and ductile Mg alloys is still a difficult problem. In this work, through warm rotary swage, we successfully prepared AZ80 Mg alloys with both high strength and high ductility. Specifically, when swaged at room temperature, some macro cracks appeared, causing catastrophic failure of the swaged rods. However, the AZ80 Mg alloy rod can be swaged up to a big equivalent deformation strain at warm and exhibits both strong and ductile behavior. Microstructural characterization revealed (i) numerous <c + a> and <c> non-basal slipping systems during the warm swaging which enhances the limited plasticity of Mg alloys, (ii) a tri-modal microstructure with micro-grains surrounded by ultrafine grains network and high-density nano-precipitates, which results in both high strength and ductility, (iii) free of macro-crack etc. artifacts which avoids pre-mature failure during tension. Our work explores an effective, simple and low-cost method to prepare both strong and ductile Mg alloys for large-scale industrial applications.
Keywords
Mg alloys,Nano-precipitates,Strength and ductility,Microstructure,Rotary swage
Submission Author
李政濠
南京理工大学
曹阳
南京理工大学
赵永好
南京理工大学;材料科学与工程
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