Mechanical and Microstructural Characterizations of Resistance Spot Welded Dissimilar TWIP/304L Stainless Steel

“…The hardness at the fusion zone is found to be larger than that of the duplex steel due to the phase change [17]. The failure mode of samples 1 to 8 was interfacial failure, whereas sample 9 was in pull-out failure mode, which is attributed to the rise in hardness of the weld nugget with respect to the base metal [18][19][20]. This pull-out failure mode signifies that the weld nugget formation is proper and strong enough to hold the load applied, and the failure occurs only through the base metal region.…”

Insights and Implications: Unraveling Critical Factors in Resistance Spot Welding of Dissimilar Metals through SS 347 and DSS 2205 Welds

“…The hardness at the fusion zone is found to be larger than that of the duplex steel due to the phase change [17]. The failure mode of samples 1 to 8 was interfacial failure, whereas sample 9 was in pull-out failure mode, which is attributed to the rise in hardness of the weld nugget with respect to the base metal [18][19][20]. This pull-out failure mode signifies that the weld nugget formation is proper and strong enough to hold the load applied, and the failure occurs only through the base metal region.…”

Insights and Implications: Unraveling Critical Factors in Resistance Spot Welding of Dissimilar Metals through SS 347 and DSS 2205 Welds

“…Limited fossil fuels, the global warming effect induced by carbon emissions, and increasing the level of safety standards have caused a dramatic change in steel technology [1,2]. However, steel is abundant, easy to produce, rigid, and cheaper than non-ferrous metals, making it an inevitably useful material in various industries.…”

Single-pulse MIG welded Perform 700 steel joints with various welding parameters

Resistance spot welding of high-strength low-alloyed (HSLA) 420 steel and bake-hardening (BH) 220 steel