Abstract:In order to research effect of Al+Zn elements of the filler metal on microstructures and mechanical properties of magnesium alloy brazed joint, the wrought magnesium alloy AZ31B was joined using two kinds of Al-Mg-Zn filler metals by high-frequency induction brazing mode. The microscopic structure of the filler metal, microscopic structure and the mechanical properties of the brazed joint were studied. The results show that the solidus and liquidus temperatures of the filler metals are light increment when the contents of Al+Zn elements of the filler metals increase. The α-Mg+β-Mg₁₇(Al,Zn)₁₂ divorced eutectoid structure forms in the brazing region due to the intensive alloying between the molten two kinds of Al-Mg-Zn filler metals and the solid base metal AZ31B occurred in the brazing process. The original microscopic structure of the filler metals disappears completely after the brazing process. As contents of Al+Zn elements of the filler metal increase, the volume fraction and microhardness of intermetallic compound β-Mg₁₇(Al,Zn)₁₂ increase too, and the shear strength of the brazed joints decreases. The overlapped joints exhibit intergranular fracture mode, the fracture comes from β-Mg₁₇(Al,Zn)₁₂ hard brittle phase.

Key words: magnesium alloy; filler metal; brazing; divorced eutectic; shear strength