Effects of interlayer metal on microstructures and mechanical properties of friction stir lap welded dissimilar joints of magnesium and aluminum alloys.

The content of intermetallic compounds (IMCs) in friction stir lap welded (FSLW) dissimilar joints of Mg and Al alloys could be reduced by the addition of interlayer metal to improve the mechanical properties of the joints, while the underlying mechanism is still unclear. In this study, Cu and Ni powders are added as the interlayer materials into the FSLW joints of AZ31 Mg alloy and Al–Zn–Cu–Mg alloy, respectively. The types, sizes, and distributions of IMCs have been characterized, and the shear properties of the joints have been evaluated. Moreover, the mechanism underlying the influence of the interlayer metals on the evolution of IMCs in the joints and the effect of IMCs on the shear properties of the joints have been studied. The results showed that the order of phase formation in the joint without interlayer was Al 12 Mg 17 , Al 3 Mg 2 , MgZn 2 , CuMg 2 , Al 2 Cu, while the order of phase formation in the joint with added Cu interlayer was Al 2 Cu, CuMg 2 , AlCu, Al 12 Mg 17 , Al 3 Mg 2 , Cu 5 Zn 8 , and that in the joint with added Ni interlayer was Mg 2 Ni, Al 3 Ni, Al 3 Ni 2 , MgNi 2 , AlNi, Al 12 Mg 17 , Al 3 Mg 2 , MgZn 2 , Ni 3 Zn 22 , NiZn, Al 2 Cu. Due to the formed physical barrier and the mechanism of phase formation, the addition of interlayer metal effectively inhibited the formation of a Mg–Al phase. The bonding strengths between Mg–Cu, Al–Cu, Al–Ni, and Mg–Ni phases and matrix were higher than that between Mg–Al phase and matrix, which improved the shear properties of the joints with Cu and Ni interlayers. [ABSTRACT FROM AUTHOR]