The mechanism study of TIG-MIG hybrid welding process based on simulation

Tungsten inert gas-metal inert gas (TIG-MIG) hybrid welding combines the advantages of tungsten inert gas (TIG) welding and metal inert gas (MIG) welding. Due to the benefits of the two welding techniques, it is an effective strategy to enhance welding quality and productivity. To investigate the mechanism of arcs interaction in TIGMIG hybrid welding, a three-dimensional transient model for arc-droplet-weld pool behavior was established. The temperature field, metal vapor content, flow fluid, current density and electromagnetic force in the arc space and weld pool were simulated and analyzed. The calculation results showed that the introduction of the TIG arc decreased the content of metal vapor and increased the arc temperature. Compared with single MIG welding, the amplitudes of maximum arc temperature and plasma velocity in TIG-MIG hybrid welding were lower. Experimental results demonstrated that the droplet deflection angle, droplet transfer frequency, weld bead crosssection, and arc temperature distribution all agreed well with calculated values.

Automated summary

TIG-MIG hybrid welding combines the advantages of TIG welding and MIG welding, effectively enhancing welding quality and productivity. A three-dimensional transient model was established to investigate the arc-droplet-weld pool behavior in TIG-MIG hybrid welding. Simulation and analysis revealed that the introduction of TIG arc decreased metal vapor content and increased arc temperature.