Effects of surface active elements on weld pool fluid flow and weld penetration in gas metal arc welding |
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Authors: | Y Wang H L Tsai |
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Affiliation: | (1) Present address: Department of Mechanical and Aerospace Engineering and Engineering Mechanics, University of Missouri-Rolla, 65409 Rolla, MO;(2) Watlow Heater Technology Center, 63026 Fenton, MO |
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Abstract: | This article presents a mathematical model simulating the effects of surface tension (Maragoni effect) on weld pool fluid
flow and weld penetration in spot gas metal arc welding (GMAW). Filler droplets driven by gravity, electromagnetic force,
and plasma arc drag force, carrying mass, thermal energy, and momentum, periodically impinge onto the weld pool. Complicated
fluid flow in the weld pool is influenced by the droplet impinging momentum, electromagnetic force, and natural convection
due to temperature and concentration gradients, and by surface tension, which is a function of both temperature and concentration
of a surface active element (sulfur in the present study). Although the droplet impinging momentum creates a complex fluid
flow near the weld pool surface, the momentum is damped out by an “up-and-down” fluid motion. A numerical study has shown
that, depending upon the droplet’s sulfur content, which is different from that in the base metal, an inward or outward surface
flow of the weld pool may be created, leading to deep or shallow weld penetration. In other words, it is primarily the Marangoni
effect that contributes to weld penetration in spot GMAW. |
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Keywords: | |
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