The paper studies the laser spot welding of SPCC steel and NdFeB permanent magnet. Results show that during welding process the two metals quickly melt, mix and then solidify to form a weld that joins two specimens together. The hardness in the joint is not uniform: the heat affected zone (HAZ) has a lower hardness than NdFeB base metal; within the nugget, the region adjacent to the fusion line has the highest hardness while the middle part of nugget has the lowest hardness in the joint. Hot cracks are apt to occur at the interface between nugget and magnet base metal, whereat the cracks propagate and lead to joint failure during shear tests. The fracture is intergrannular and is a typical brittle fracture. To increase the joint strength and prolong the service life of welded components, it is necessary to take some metallurgical and technological measures to improve the bonding quality between nugget and magnet base metal.
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3rd Pacific International Conference on Laser Materials Processing, Micro, Nano and Ultrafast Fabrication
April 16–18, 2008
Beijing, People's Republic of China
ISBN:
978-0-912035-89-5
PROCEEDINGS PAPER
Studies on the laser spot welding of steel/magnet dissimiliar materials Available to Purchase
Published Online:
April 01 2008
Citation
Baohua ChangShaojun BaiXiaogang LiYuquan DingHua ZhangDong DuYunhong Zhou; April 16–18, 2008. "Studies on the laser spot welding of steel/magnet dissimiliar materials." Proceedings of the 3rd Pacific International Conference on Laser Materials Processing, Micro, Nano and Ultrafast Fabrication. PICALO 2008: 3rd Pacific International Conference on Laser Materials Processing, Micro, Nano and Ultrafast Fabrication. Beijing, People's Republic of China. (pp. pp. 169-172). ASME. https://doi.org/10.2351/1.5056999
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