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Research on common fused magnesium-aluminum technology

2021-08-19 02:34:18
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The fused magnesia aluminum was heated to 1550 ℃ and then kept for 5 hours for sintering treatment. A magnesia-iron-aluminum spinel brick and a forsterite composite brick are made, which are taken out after cooling and photographed, and then tested. At different temperatures of 1500 ℃ and 1550 ℃, the linear change rate of the composite brick of magnesia-iron-aluminum spinel and forsterite after firing. They are the composite brick samples of fused iron spinel and forsterite bricks and the composite brick samples of sintered magnesia-alumina-iron spinel and forsterite bricks, respectively. The firing temperature is 1550℃, the composite brick samples of fused magnesia-aluminum-iron spinel and forsterite bricks and the composite brick samples of sintered magnesia-aluminum-iron spinel and forsterite bricks. At the same sintering temperature, the post-fire line change rate of fused magnesia-aluminum-iron spinel and forsterite brick composite bricks is lower than that of sintered magnesia-aluminum-aluminum spinel and olivine brick composite bricks. Rate.




For the composite brick of magnesia-aluminum-iron spinel brick and olivine of the same material, the linear change rate increases with the increase of the firing temperature. The post-fire linear change rate of magnesia-iron-aluminum spinel and forsterite composite bricks at different sintering temperatures. Linear expansion of magnesia-iron-aluminum spinel bricks and high-purity forsterite bricks Linear expansion of high-purity forsterite bricks and magnesia-iron-aluminum spinel bricks. Thermal expansion curves of fused magnesia-iron-aluminum-iron spinel brick samples after firing. From room temperature to about 1500 °C, the linear expansion rate gradually increases, and the fused magnesium aluminum is heated to 1550 °C and then kept for 5 hours for sintering treatment. A magnesia-iron-aluminum spinel brick and a forsterite composite brick are made, which are taken out after cooling and photographed, and then tested. At different temperatures of 1500 ℃ and 1550 ℃, the linear change rate of the composite brick of magnesia-iron-aluminum spinel and forsterite after firing. They are the composite brick samples of fused iron spinel and forsterite bricks and the composite brick samples of sintered magnesia-alumina-iron spinel and forsterite bricks, respectively. The firing temperature is 1550℃, the composite brick samples of fused magnesia-aluminum-iron spinel and forsterite bricks and the composite brick samples of sintered magnesia-aluminum-iron spinel and forsterite bricks. At the same sintering temperature, the post-fire line change rate of fused magnesia-aluminum-iron spinel and forsterite brick composite bricks is lower than that of sintered magnesia-aluminum-aluminum spinel and olivine brick composite bricks. Rate.


Fused magnesium aluminum


For the composite brick of magnesia-aluminum-iron spinel brick and olivine of the same material, the linear change rate increases with the increase of the firing temperature. The post-fire linear change rate of magnesia-iron-aluminum spinel and forsterite composite bricks at different sintering temperatures. Linear expansion of magnesia-iron-aluminum spinel bricks and high-purity forsterite bricks Linear expansion of high-purity forsterite bricks and magnesia-iron-aluminum spinel bricks. Thermal expansion curves of fused magnesia-iron-aluminum-iron spinel brick samples after firing.


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