Effects of welding wire and torch weaving on GMAW of S355MC and AISI 304L dissimilar welds

Abstract

Dissimilar welding of austenitic stainless steel (ASS) to low-alloy structural steel is widely used in the power generation industry. The formation of brittle martensite and hot cracking susceptibility in the single-phase austenite microstructure are the main concerns related to the metallurgy of this kind of weld. This study investigates the effect of different welding wires and the weaving technique on the quality, microstructure and microhardness of fillet weld joints between AISI 304L austenitic stainless steel and S355MC low-alloy structural steel. Using robotised synergic gas metal arc welding (GMAW), three different filler wires were used to weld specimens with and without weaving. The macro-sections of the fillet welds were inspected and the dilution rates and ferrite numbers (FN) measured. The microstructure was also inspected and microhardness values recorded. Porosity was discerned in two weld samples made with the use of weave beads. The measured FNs for all the weldments were very close to estimations from the Schaeffler diagram. The formation of a narrow martensitic band on the ferritic side of the weld metal was detected for most of the specimens. It is concluded that weaving decreased the dilution rate and increased the FN. However, no obvious effect on the microstructure and hardness as a result of using the weaving technique was noticed.