In this research an attempt has been made to develop mathematical models for predicting mechanical properties including ultimate tensile strength, impact toughness, and hardness of the friction stir welded AA 6061-T6 joints at 95% confidence level. Response surface methodology with central composite design having four parameters and five levels has been used. The four parameters considered were tool pin profile, rotational speed, welding speed and tool tilt angle. Three confirmation tests were performed to validate the empirical relations. In addition, the influence of the process parameters on ultimate tensile strength, impact toughness, and hardness were investigated. The results indicated that tool pin profile is the most significant parameter in terms of mechanical properties; tool with simple cylindrical pin profile produced weld with high ultimate tensile strength, impact toughness, and hardness. In addition to tool pin profile, rotational speed was more significant compared to welding speed for ultimate tensile strength and impact toughness; whereas, welding speed showed dominancy over rotational speed in case of hardness. Optimum conditions of process parameters have been found at which tensile strength of 92%, impact toughness of 87%, and hardness of 95% was achieved in comparison to the base metal. This research will contribute to expand the scientific foundation of friction stir welding of Aluminum alloys with emphasis on AA 6061-T6. The results will aid the practitioners to develop a clear understanding of the influence of process parameters on mechanical properties, and will allow the selection of best combinations of parameters to achieve desired mechanical properties.
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