The effect of various welding parameters on the penetration of GTA welds has been investigated. Increases in welding speed were found to reduce penetration; however, increases in welding current were observed to increase the penetration in high sulfur (HS) casts and decrease penetration in low sulfur (LS) steels. Plots of penetration as a function of increasing linear energy (the heat supplied per unit length of weld) revealed a similar trend with increased penetration in HS casts, but the penetration in LS casts was unaffected by increases in linear energy. These results support the Burgardt-Heiple proposition that changes in welding parameters on penetration can be explained in terms of their effect, sequentially, on the temperature gradient and the Marangoni forces operating in the weld pool. Increases in arc length were found to decrease weld penetration regardless of the sulfur concentration of the steel, and the effects of electrode geometry and welding position on weld penetration were also investigated.
[1]
C. Sozou,et al.
Nonlinear fluid motions in a container due to the discharge of an electric current
,
1984,
Journal of Fluid Mechanics.
[2]
Julian Szekely,et al.
Heat- and fluid-flow phenomena in weld pools
,
1984,
Journal of Fluid Mechanics.
[3]
P. Burgardt,et al.
Interaction between Impurities and Welding Variables in Determining GTA Weld Shape Depending on the trace elements in the base materials, identical changes in welding variables can have an opposite effect on weld shape
,
1986
.
[4]
A. Matsunawa,et al.
Convection in Weld Pool and Its Effect on Penetration Shape in Stationary Arc Welds(Physics, Process, Instrument & Measurement)
,
1987
.