The influence of melt superheating treatment on the microstructures of Mg-3.5Si-1A1 alloys unmodified and modified with 0.2% Sr-Sb (mass fraction) was investigated. The results show that when the melt superheating temperature increases from 750 to 900 ℃, the average size of primary Mg2Si in the unmodified alloys decreases progressively from about 27 to about 19 μm, while that in Sr-Sb-modified alloys,is refined considerably from about 14 to about 7 μm when the temperature increases from 750 to 850℃, and then slightly increases to about 9 μm with temperature further increasing to 900 ℃, which might be attributed to the burning loss of Sr and Sb in melts. However, the superheating temperature only has a slight effect on the morphologies of both primary and eutectic Mg2Si phases in unmodified and Sr-Sb-modified alloys.
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