Effects of Process Parameters on Weld Formation and Tensile Properties of Hybrid Laser-Arc Welding
LUO Ziyi, HAN Shanguo, CHEN Yongcheng, CAI Detao, KHASKIN Vladyslav Yu
Guangdong Provincial Key Laboratory of Advanced Welding Technology, Guangdong Welding Institute (China-Ukraine E.O. Paton Institute of Welding),Guangzhou 510650
Abstract: Full penetration welding process experiments had been carried out on 8 mm 304 stainless steel by hybrid laser-arc welding using high power disk laser and MIG arc. The effects on the weld formation and tensile property (tensile strength, elongation) of wire feeding speed, laser power, welding speed, distance between laser and arc were studied. The results show that it can decrease back hump and eliminate undercut leading weld formation improvement with increasing wire feeding speed. And it can improve tensile strength and elongation, but if the wire feeding speed is too big, the tensile strength would decrease. It can decrease back hump and eliminate undercut by enhancing laser power but the tensile strength and elongation would decrease. When the distance between laser and arc is 1 mm, it can obtain a good weld formation and the tensile strength and elongation are better. The tensile strength and elongation can be up to 695 MPa and 41.5%, which reach 97.89% and 76.85% of the base material, respectively.
罗子艺, 韩善果, 陈永城, 蔡得涛, 哈斯金·弗拉基斯拉夫. 工艺参数对激光-电弧复合焊缝成形及拉伸性能的影响[J]. 材料导报, 2019, 33(13): 2146-2150.
LUO Ziyi, HAN Shanguo, CHEN Yongcheng, CAI Detao, KHASKIN Vladyslav Yu. Effects of Process Parameters on Weld Formation and Tensile Properties of Hybrid Laser-Arc Welding. Materials Reports, 2019, 33(13): 2146-2150.
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