Fluid Flow Phenomena During Welding,Fluid Flow Phenomena During Welding,Fluid Flow Phenomena During WeldingMOLTEN WELD POOLS are dynamic. Liquid in the weld pool in acted on by several strong forces, which can result in
high-velocity fluid motion. Fluid flow velocities exceeding 1 m/s (3.3 ft/s) have been observed in gas tungsten arc (GTA)
welds under ordinary welding conditions, and higher velocities have been measured in submerged arc welds. Fluid flow is
important because it affects weld shape and is related to the formation of a variety of weld defects. Moving liquid
transports heat and often dominates heat transport in the weld pool. Because heat transport by mass flow depends on the direction and speed of fluid motion, weld pool shape can differ dramatically from that predicted by conductive heat flow.
Temperature gradients are also altered by fluid flow, which can affect weld microstructure. A number of defects in GTA
welds have been attributed to fluid flow or changes in fluid flow, including lack of penetration, top bead roughness,
humped beads, finger penetration, and undercutting. Instabilities in the liquid film around the keyhole in electron beam
and laser welds are responsible for the uneven penetration (spiking) characteristic of these types of welds.
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