Liu Fengde scite author profile

This study is concerned with the effects of laser and arc arrangement on weld integrity for the hybrid laser arc welding processes. Experiments were conducted for a high-strength steel using a 4kW Nd: YAG laser and a metal active gas (MAG) welding facility under two configurations of arc-laser hybrid welding (ALHW) and laser-arc hybrid welding (LAHW). Metallographic analysis and mechanical testing were performed to evaluate the weld integrity in terms of weld bead geometry, microstructure and mechanical properties. The morphology of the weld bead cross-section was studied and the typical macrostructure of the weld beads appeared to be cone-shaped and cocktail cup-shaped under ALHW and LAHW configurations, respectively. The weld integrity attributes of microstructure, phase constituents and microhardness were analyzed for different weld regions. The tensile and impact tests were performed and fracture surface morphology was analyzed by scanning electron microscope.The study showed that ALHW produced joints with a better weld shape and a more uniform microstructure of lath martensite, while LAHW weld had a heterogeneous structure of lath martensite and austenite.

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Characteristics analysis of droplet transfer in laser-MAG hybrid welding process

Liu

Zhang

Dong

et al. 2018

International Journal of Heat and Mass Transfer

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Liu Fengde

Analysis of droplet transfer mode and forming process of weld bead in CO2 laser–MAG hybrid welding process

Effects of relative positioning of energy sources on weld integrity for hybrid laser arc welding

Characteristics analysis of droplet transfer in laser-MAG hybrid welding process

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