Thermal Decomposition Mechanism of Terbium Chloride Aerosol at High Temperature

doi:10.12068/j.issn.1005-3026.2018.10.011

Abstract

Abstract: Using TbCl₃ aerosol as the precursor， the thermal decomposition mechanism of TbCl₃ at high temperature was investigated from micro-and nano-scale in the condition of air atmosphere， and the phase composition and morphology of the pyrolysis products were characterized by XRD and FESEM， respectively. Based on the experimental results and thermodynamic analysis， it was discussed about the chemical reaction mechanism of the TbO₂ formation by thermal decomposition of TbCl₃ and kinetic reasons for promoting the conversion of TbCl₃ to terbium oxide. The results showed that the thermal decomposition of TbCl₃ could produce the stoichiometric form of TbO₂， the non-stoichiometric form of Tb₇O₁₂ was obtained when the thermal decomposition temperature was above 800℃， and TbOCl was not found in the pyrolysis products. From intermediate compounds observed in the pyrolysis products of the TbCl₃ aerosol， it is helpful to understand its property and thermal decomposition process.

Key words: TbCl₃, aerosol, thermal decomposition, mechanism, Tb(OH)₂Cl, TbO₂

CLC Number:

TF845.6

XUE Shou-feng， WU Wen-yuan， BIAN Xue. Thermal Decomposition Mechanism of Terbium Chloride Aerosol at High Temperature[J]. Journal of Northeastern University Natural Science, 2018, 39(10): 1423-1427.

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