Phase relation studies in the CeO2-Eu2O3 system at 1500 to 600 °C in air

Materials based on CeO2-Eu2O3 system are promising candidates for a wide range of applications, but the phase relationship has not been studied systematically previously. To address this challenge, the subsection of the phase diagram for 600, 1100 and 1500 °C has been elucidated. Samples of differen...

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Bibliographic Details
Published in:Journal of the European Ceramic Society 2020-03, Vol.40 (3), p.751-758
Main Authors: Andrievskaya, E.R., Kornienko, O.A., Sameljuk, A.V., Sayir, A.
Format: Article
Language:English
Subjects:
Ceria
Europia
Lattice parameters, microstructure
Phase equilibria
Solid solutions
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Summary:Materials based on CeO2-Eu2O3 system are promising candidates for a wide range of applications, but the phase relationship has not been studied systematically previously. To address this challenge, the subsection of the phase diagram for 600, 1100 and 1500 °C has been elucidated. Samples of different compositions have been prepared from nitrate acid solutions using conventional ceramic techniques; evaporation, drying, and calcinations. The phase relations in the binary CeO2-Eu2O3 system at 600–1500 °C in air were studied from the heat treated samples using X-ray diffraction analysis, polarized light microscopy investigation and scanning electron microscopy in the overall concentration range. It was established that in the binary CeO2-Eu2O3 system there exist fields of solid solutions based on monoclinic (B) modification of Eu2O3, cubic (C) modification of Eu2O3 and cubic modification of CeO2 with fluorite-type structure (F). The systematic study that covered whole composition range excluded formation of new phases. The refined lattice parameters of the unit cells and the boundaries of the homogeneity fields for solid solutions were determined.
ISSN:0955-2219
1873-619X
DOI:10.1016/j.jeurceramsoc.2019.10.045