Effects of heat source configuration on the welding process and joint formation in ultra-high power laser-MAG hybrid welding

材料科学 焊接 锁孔 激光束焊接 热影响区 激光器 熔池 电阻焊 复合材料 接头(建筑物) 激光功率缩放 机械工程 冶金 电弧焊 光学 钨极气体保护焊 结构工程 工程类 物理
作者
Yan Li,Shaoning Geng,Zhengwu Zhu,Yilin Wang,Gaoyang Mi,Ping Jiang
出处
期刊:Journal of Manufacturing Processes [Elsevier BV]
卷期号:77: 40-53 被引量:43
标识
DOI:10.1016/j.jmapro.2022.02.045
摘要

Ultra-high power laser-MAG hybrid welding technology provides an effective method for joining thick plates with high-quality and efficiency. Heat source configuration of laser and arc was verified to play a vital role in conventional hybrid welding process. In this paper, ultra-high power laser-MAG hybrid welding was utilized to weld 20 mm thick Q235 steel for clarifying the effect of heat source configuration on welding process and joint formation. By high-speed photography, welding process was systematically recorded including hybrid plasma morphology, droplet orientation-transfer and molten pool flow. Subsequently, the joint formation was further analyzed via dynamic behaviors of liquid column and keyhole. Results exhibited that a stable arc characteristic and smooth molten pool flow was formed under HM (ultra-high power laser and MAG-leading) mode. Besides, the enlarged and stabilized keyhole would inhibit the height of liquid column and formation of spatters. Finally, a sound weld joint without “ant-colony-like defect” joint formation and 15.82 mm penetration was produced in HM mode. This work provides an effective method and reference for realizing thick plate single pass weldments in the practical industry.
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