不同气氛下颗粒中 Fe3O4-MgO 体系的界面扩散和反应机理

Yuanbo Zhang, Kun Lin, Zijian Su, Xijun Chen, Ke Ma, Tao Jiang
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摘要

球团在高炉炉料结构中的比例逐渐增加,其中含镁助熔球团因其优异的冶金性能而得到广泛应用。为了进一步确定含镁熔剂球团在不同反应层中的固结机理,本研究对不同焙烧气氛下 Fe3O4-MgO 的相变和扩散行为进行了研究。结果表明,在惰性气氛中,Fe2+优先扩散到MgO层并与Mg2+结合形成MgyFe1-yO,然后,Fe3+和Fe2+与Mg2+结合形成[(MgO)x(FeO)1-x]-Fe2O3(0 ≤ x ≤ 1)。焙烧温度的升高有利于 Mg2+ 进入尖晶石相。在空气气氛中,Fe3O4 首先被氧化成 Fe2O3。Fe3+ 和 Mg2+ 反向扩散,然后结合成 MgxFe3-xO4(x = 1)。在惰性气氛中,Fe3O4 比在空气中更容易与氧化镁发生反应。增加氧分压有利于生成 MgxFe3-xO4 (x = 1)。在惰性气氛中,1200 °C时Fe3O4-MgO体系界面上Mg2+的扩散速率为1.88 µm/min,比空气气氛中的1.49 µm/min快。
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Interface Diffusion and Reaction Mechanisms of Fe3O4–MgO System in Pellets Under Different Atmospheres

The proportion of pellets in the blast furnace charge structure is gradually increasing, among which magnesium-bearing fluxed pellets have been widely applied due to their excellent metallurgical properties. To further determine the consolidation mechanism in different reaction layers of magnesium-bearing fluxed pellets, the phase transformation and diffusion behaviors of Fe3O4–MgO in different roasting atmospheres were investigated in this study. The results showed that Fe2+ preferentially diffused to the MgO layer and combined with Mg2+ to form MgyFe1−yO in inert atmosphere, and then, Fe3+ and Fe2+ binded to Mg2+ to form [(MgO)x(FeO)1−x]·Fe2O3 (0 ≤ x ≤ 1). The increase of roasting temperature was favorable for the entry of Mg2+ into the spinel phase. In air atmosphere, Fe3O4 was first oxidized to Fe2O3. Fe3+ and Mg2+ counter-diffused and then combined to MgxFe3−xO4 (x = 1). Fe3O4 reacted more readily with MgO in inert atmosphere than in air atmosphere. It was favorable to increase the oxygen partial pressure for MgxFe3−xO4 (x = 1) generation. The diffusion rate of Mg2+ at the interface of Fe3O4–MgO system in inert atmosphere was 1.88 µm/min at 1200 °C, which was faster than that of 1.49 µm/min in air atmosphere.

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