Kinetics of the thermal decomposition of kyanite

Ceramurgia International Pub Date : 1980-04-01 DOI:10.1016/0390-5519(80)90043-5

H. Schneider, A. Majdič

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引用次数: 12

Abstract

The kinetics of the solid state high-temperature transformation of kyanite (Al₂SiO₅Al₂O₃·SiO₂) powders (≤40 μm) to 3:2-mullite (3Al₂O₃·2SiO₂) and silica (SiO₂ were investigated by means of quantitative X-ray diffraction techniques. The transformation interval was found to lie between about 1150 and 1350°C. The reaction law best fitting the kinetic data is: 1-α = kt^a. The transformation is believed to be reconstructive, with decomposition of the kyanite structure, solid-state atom diffusion, and (epitactic) rearrangement of mullite and cristobalite. Cristobalite represents part of the ⪡free⪢ silica, the rest being present as a glassy phase. Addition of Fe₂O₃ and TiO₂ to the starting material exerts a marked decrease of the transformation temperature, with TiO₂ having a somewhat stronger influence than Fe₂O₃. The reason may be an oxide-catalyzed reaction; the decomposition begins at nuclei formed at the surfaces of the kyanite particles, which are coated with thin layers of hematite and rutile respectively.

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蓝晶石热分解动力学

采用定量x射线衍射技术研究了蓝晶石(Al2SiO5Al2O3·SiO2)粉末(≤40 μm)向3:2莫来石(3Al2O3·2SiO2)和二氧化硅(SiO2)的固相高温转变动力学。相变区间在1150 ~ 1350℃之间。最符合动力学数据的反应规律为:1-α = kta。这种转变被认为是重构的，包括蓝晶石结构的分解、固态原子的扩散以及莫来石和方英石的(外延)重排。方石英代表部分⪡自由⪢二氧化硅，其余部分以玻璃相存在。在起始材料中加入Fe2O3和TiO2可以显著降低相变温度，其中TiO2的影响略强于Fe2O3。原因可能是氧化催化反应;分解开始于蓝晶石颗粒表面形成的核，蓝晶石颗粒表面分别覆盖着薄层赤铁矿和金红石。

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Ceramurgia International

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