Spot Welding of Dissimilar Materials Al6061/ Ss304 with an Interfacial Coating of Graphene Nano Platelets

Abstract

Spot welding of dissimilar materials Al6061 and SS304 with an interfacial coating of Graphene Nano platelets (GNPs) by using the Resistance spot welding (RSW) technique is described in this chapter. A thin layer of GNPs (a few micrometers thick) is incorporated as an interlayer between Al6061/SS304 sheets (thickness 1 mm) and spot welded in lap configuration. RSW parameters play a vital role in this joining process. It was observed the strength of the lap joint increases with welding time and current. The method of welding held up the metal ejection, which occurs at high welding conditions. The influence of process parameters (welding current, time) on the mechanical and microstructural properties of the spot-welded joint was evaluated in detail. A tensile test was carried out in lap-shear mode to evaluate the strength of the joint and to determine the peak load. The fusion zone and the weld nugget were characterized by Scanning Electron microscopy and hardness analysis. SEM analysis observes that Fe and Al matrix well looped around the Graphene particles leads to the formation of inter-metallic compounds of Fe-GNP, Al- GNP, and Fe-Al-GNP at the joint interface. The results are compared with the properties of joints without and with GNP interlayer. It was found that the GNP interlayer enhances the properties of the spot-welded joint and increases joint strength. Possible strengthening mechanisms include enhanced grain refinement and dislocation pile-ups in the presence of the GNPs.