Thermodynamic Modeling of the SFCA Phase Ca2(Fe, Ca)6(Fe, Al, Si)6O20
Reiko Murao, Takayuki Harano, Masao Kimura, In-Ho Jung
pp. 493-501
Abstract
The thermodynamic model of a silico-ferrites of calcium and aluminum solution, SFCA phase (Ca2(Fe, Ca)6Oct(Fe, Al, Si)6TetO20) was newly developed in the framework of the Compound Energy Formalism (CEF). Preferred substitution of Al atoms to tetrahedral sites in the SFCA solution was verified by X-ray absorption near edge structure (XANES) analysis. On considering crystallographic information in particular the short-range-ordering nature in the SFCA solution – the Ca8(Fe3+)20Oct(CaSi6+, FeFe6+, FeAl6+)3Paired(CaSi6+)1Paired(Fe3+, Al3+)20TetO80 structure was considered for modeling the SFCA solution. The optimized Gibbs energies of all end-members can successfully reproduce the experimental single phase region of the SFCA solution.
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