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Mg-Al spinel is synthesized by using industrial waste-residue and basic mag- nesium carbonate in the aluminum factory as the main raw materials. The influence of sintering temperature on crystalline structure and microstructure of Mg-Al spinel has been mainly discussed. The crystalline structure of sample is characterized by using XRD, SEM and relevant analytical software. The experimental results show that compared to the conventional synthetic method, the application of waste aluminum slag as the raw material can greatly decrease the synthetic tem- perature. The content of Mg-Al spinel first increases and then decreases with the rise of sintering temperature, and its purity can reach as high as 96wt% at 1550 ℃, which is therefore determined to be the optimum synthetic temperature. SEM observations demonstrate that as the rise of sintering temperature, the grain of Mg-Al spinel grows up obviously with typical octahedral characteristic appearance.
The influence of sintering temperature on crystalline structure and microstructure of Mg-Al spinel has been discussed in several ways. The crystalline form of Mg-Al spinel is synthesized by using industrial waste-residue and basic mag- nesium carbonate in the aluminum factory as the main raw materials. The experimental results show that compared to the conventional synthetic method, the application of waste aluminum slag as the raw material can greatly decrease the synthetic tem- perature. The content of Mg -Al spinel first increases and then decreases with the rise of sintering temperature, and its purity can reach as high as 96 wt% at 1550 ° C, which is therefore determined to be the optimum synthetic temperature. , the grain of Mg-Al spinel grows up obviously with typical octahedral characteristic appearance.