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Volume 23 Issue 10
Oct.  2016
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Jun-hong Chen, Hai-yang Chen, Ming-wei Yan, Zheng Cao, and Wen-jun Mi, Formation mechanism of calcium hexaluminate, Int. J. Miner. Metall. Mater., 23(2016), No. 10, pp. 1225-1230. https://doi.org/10.1007/s12613-016-1342-9
Cite this article as:
Jun-hong Chen, Hai-yang Chen, Ming-wei Yan, Zheng Cao, and Wen-jun Mi, Formation mechanism of calcium hexaluminate, Int. J. Miner. Metall. Mater., 23(2016), No. 10, pp. 1225-1230. https://doi.org/10.1007/s12613-016-1342-9
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Formation mechanism of calcium hexaluminate

  • 通讯作者:

    Jun-hong Chen    E-mail: cjh2666@126.com

  • To investigate the formation mechanism of calcium hexaluminate (CaAl12O19, CA6), the analytically pure alumina and calcia used as raw materials were mixed in CaO/Al2O3 ratio of 12.57:137.43 by mass. The raw materials were ball-milled and shaped into green specimens, and fired at 1300–1600°C. Then, the phase composition and microstructure evolution of the fired specimen were studied, and a first principle calculation was performed. The results show that in the reaction system of CaO and Al2O3, a small amount of CA6 forms at 1300°C, and greater amounts are formed at 1400°C and higher temperatures. The reaction is as follows: CaO·2Al2O3 (CA2) + 4Al2O3 → CA6. The diffusions of Ca2+ in CA2 towards Al2O3 and Al3+ in Al2O3 towards CA2 change the structures in different degrees of difficulty. Compared with the difficulty of structural change and the corresponding lattice energy change, it is deduced that the main formation mechanism is the diffusion of Ca2+ in CA2 towards Al2O3.
  • Formation mechanism of calcium hexaluminate

    + Author Affiliations
    • To investigate the formation mechanism of calcium hexaluminate (CaAl12O19, CA6), the analytically pure alumina and calcia used as raw materials were mixed in CaO/Al2O3 ratio of 12.57:137.43 by mass. The raw materials were ball-milled and shaped into green specimens, and fired at 1300–1600°C. Then, the phase composition and microstructure evolution of the fired specimen were studied, and a first principle calculation was performed. The results show that in the reaction system of CaO and Al2O3, a small amount of CA6 forms at 1300°C, and greater amounts are formed at 1400°C and higher temperatures. The reaction is as follows: CaO·2Al2O3 (CA2) + 4Al2O3 → CA6. The diffusions of Ca2+ in CA2 towards Al2O3 and Al3+ in Al2O3 towards CA2 change the structures in different degrees of difficulty. Compared with the difficulty of structural change and the corresponding lattice energy change, it is deduced that the main formation mechanism is the diffusion of Ca2+ in CA2 towards Al2O3.
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