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In this research, the feasibility of FSW dissimilar magnesium alloys was investigated. Specifically, die cast MRI-153M and wrought AZ31 were butt-welded. The effects of weld parameters such as tool rotation and weld speed on the weld quality have been characterized in terms of macrostructure, microstructure, hardness profile as well as tensile strength. A relatively wide FSW process window exists to achieve void-free welds. In the stir zone MRI-153M transforms from cast structure to fine grain structure during FSW, while AZ31 transforms from originally twinned grains to equi-axed grains without twins. MRI-153M in the stir zone becomes stronger than the base metal and the stir zone on the AZ31 side becomes weaker than the base metal. Tensile coupons failed in the base metal of MRI-153M, and the tensile strength was found to depend on the quality of the base metal of MRI-153M.

Friction stir welding (FSW) shows advantages for joining lightweight alloys for automotive applications. In this research, the feasibility of friction stir welding aluminum for an automotive component application was studied. The objective of this research was to improve the Friction Stir Spot Welding (FSSW) technique used to weld an aluminum closure panel (CP). The spot welds were made using the newly designed swing-FSSW technique. In a previous study (unpublished), the panel was welded from the thin to thick side using both an 8 mm and a 10 mm diameter tool. The 10 mm tool passed various fatigue tests; however, the target was to improve performance of the 8 mm tool, especially to increase the number of cycle before the first crack appearance during fatigue testing. In this study fatigue tests and static strength was recorded for weld specimens that were welded from thick-to-thin with an 8 mm diameter tool.