Your search keyword '"electromagnetic high-speed impact"' showing total 2 results

1. Microstructure Evolution of 5052 Aluminum Sheet in Electromagnetic High-Speed Impact

Author

Fei Feng, Jianjun Li, Yunjun Zhang, Liang Huang, Hongliang Su, Shijing Cao, Guangbao Shao, and Rongchuang Chen

Subjects

electromagnetic high-speed impact, 5052 aluminum alloy, micro hardness, microstructure, Mining engineering. Metallurgy, TN1-997

Abstract

Electromagnetic forming (EMF) is a high-speed forming technology, which can not only improve the formability of hard-to-form materials but also reduce springback. Electromagnetic high-speed impact can further improve the formability compared with electromagnetic free forming. The microscopic deformation mechanism of electromagnetic high-speed impact of aluminum alloy is discussed in this paper. The microstructures of electromagnetic high-speed impact of an aluminum alloy sheet were characterized. The microscopic deformation mechanisms of electromagnetic forming and electromagnetic high-speed impact were shown, respectively. The research results showed that electromagnetic high-speed impact could significantly improve the microhardness of the workpiece. The grains broke up and then became small subgrains during electromagnetic high-speed impact. The deformation mechanism was dominated by dislocation cross slip under electromagnetic high-speed impact.

Published

2020

2. Microstructure Evolution of 5052 Aluminum Sheet in Electromagnetic High-Speed Impact.

Author

Feng, Fei, Li, Jianjun, Zhang, Yunjun, Huang, Liang, Su, Hongliang, Cao, Shijing, Shao, Guangbao, and Chen, Rongchuang

Subjects

ALUMINUM sheets, MICROSTRUCTURE, BIOLOGICAL evolution

Abstract

Electromagnetic forming (EMF) is a high-speed forming technology, which can not only improve the formability of hard-to-form materials but also reduce springback. Electromagnetic high-speed impact can further improve the formability compared with electromagnetic free forming. The microscopic deformation mechanism of electromagnetic high-speed impact of aluminum alloy is discussed in this paper. The microstructures of electromagnetic high-speed impact of an aluminum alloy sheet were characterized. The microscopic deformation mechanisms of electromagnetic forming and electromagnetic high-speed impact were shown, respectively. The research results showed that electromagnetic high-speed impact could significantly improve the microhardness of the workpiece. The grains broke up and then became small subgrains during electromagnetic high-speed impact. The deformation mechanism was dominated by dislocation cross slip under electromagnetic high-speed impact. [ABSTRACT FROM AUTHOR]

Published

2020