The influences of nugget diameter on the mechanical properties and the failure mode of resistance spot-welded metastable austenitic stainless steel

Resistance spot-welded tensile shear specimens with three nugget diameters—image, image and image—were prepared with low- and high-strength cold-rolled 301L plates. Static overload and fatigue examinations of the spot welds were conducted to investigate the effects of the nugget diameter on their mechanical properties and failure modes. All spot-welded, high-strength plates showed complete interfacial failure, and their static ultimate loads increased linearly with the nugget diameter. Only part of the spot-welded, low-strength plates with a nugget size of image demonstrated the “pull-out” failure, and the ultimate loads were lower than the loads of samples fractured by interfacial failure. Plastic deformation induced an approximately 30% (v.%) α′ martensite transformation at the interfacial fractures, which led to a remarkable increase in the fracture strength and an increase in the hardness to more than Hv400, more than double the original value. Speeding up the deformation rate led to obviously reduce the amount of α′ martensite (v.%) transformation and plastic displacements. The fatigue life of spot welds under the fixed loads increased with the nugget size, which was especially evident for the spot-welded thin plates.