Microstructures and tensile properties of Mg–4Al–4La–0.4Mn–xB (x = 0, 0.01, 0.02, 0.03) alloy

Abstract

The influences of trace boron on microstructures and tensile properties of Mg–4Al–4La-based alloys prepared by cold-chamber high-pressure die-casting method were thoroughly investigated. The results indicated that adding trace boron to Mg–4Al–4La-based alloy can refine the dendrite arm spacing of primary α-Mg phases, which are mainly due to the little inoculating AlB2 particles. In addition, we found that adding 0.01–0.02wt.% boron can drastically changes the eutectic morphology, with secondary particle dispersion becoming irregular and eutectic volume fraction being reduced. These phenomena can be attributed to the competitive nucleation between α-Mg and AlB2 particles for Al11La3 phases, and to the fact that more Al and La atoms saturate into the α-Mg matrix. Considering the tensile properties, although adding 0.01–0.02wt.% boron decreased the strength of Mg–4Al–4La-based alloy, adding 0.03wt.% boron significantly improved the tensile properties due to dispersion strengthening and, to a certain extent, solid-solution strengthening.