Effect of beam defocusing on porosity formation in laser-MIG hybrid welded TA2 titanium alloy joints

Effect of beam defocusing on porosity formation in laser-MIG hybrid welded TA2 titanium alloy joints

[Display omitted] The influence of defocusing distance on porosity formation during laser-MIG hybrid welding of TA2 titanium alloy joints was studied by both experimental and numerical methods. The experimental results showed that the population of porosities decreased in the welded joint when the d...

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Bibliographic Details
Published in:Journal of manufacturing processes Vol. 58; pp. 1221 - 1231
Main Authors: Chen, Shuling, Luo, Shixuan, Yu, Hang, Geng, Hui, Xu, Guoxiang, Li, Ruifeng, Tian, Yingtao
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2020
Subjects:
Defocusing distance
Laser-MIG hybrid welding
Numerical simulation
Porosity
Titanium alloy
Titanium alloy
Laser-MIG hybrid welding
Numerical simulation
Porosity
Defocusing distance
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Summary:[Display omitted] The influence of defocusing distance on porosity formation during laser-MIG hybrid welding of TA2 titanium alloy joints was studied by both experimental and numerical methods. The experimental results showed that the population of porosities decreased in the welded joint when the defocusing distance increased from +6 mm to +12 mm, while other welding parameters remained unchanged. A volume of fluid (VOF) model was built in FLUENT by coupling the laser induced keyhole, MIG droplet and melt pool. The simulation results suggested the formation of porosities can be attributed to the collapse of the keyhole that can trap the open space at its bottom, thanks to the vigorous laser-material interaction. When the defocusing distance increases, the laser energy density drops and the keyhole becomes shallower leading to a weaker liquid metal vortex flow. In this case, the open space at the bottom of the keyhole could be backfilled with the surrounding liquid metal when the keyhole collapse, resulting in less porosity in the solidified weld.
ISSN:1526-6125
2212-4616
DOI:10.1016/j.jmapro.2020.09.026