Mapping transfer modes for stainless steel gas metal are welding

A methodology for the construction of transfer mode maps for stainless stee l gas metal arc welding, with argon and argon-oxygen shielding gases, is pr esented. A back lighting laser and high speed video camera were used for vi sualisation and measurement of droplets and electrode extension. The reason s for the use of a groove, instead of the traditional bead on plate method, and of same volume beads are discussed and the results assessed. Unlike in other mapping procedures, mapping was conducted as a function of welding c urrent and arc length. In addition, transfer rate v. welding current or wir e feedrate curves were plotted. The results show the importance of the use of both maps and curves for identification and quantification of the shield ing gas effects on the transfer mode. The results also suggest that an incr ease in oxygen content in the shielding gas reduces the values of transitio n current and transition wire feedrate (as expected), but also that it redu ces the transfer rate and droplet size at the globular-spray transition.