Phase composition, microstructure, and thermophysical and dielectric properties of multiferroic Bi1−x Dy x FeO3

An extensive study was performed to establish correlations between the crystal structure, the grain composition, and the dielectric and thermophysical properties of high-temperature multiferroics of the Bi1−x Dyx FeO3 type (x = = 0.05–0.20). It is shown that a trade-off between the macroresponses in...

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Published in:Thermophysics and aeromechanics 2016-05, Vol.23 (3), p.445-450
Main Authors: Khasbulatov, S. V., Pavelko, A. A., Shilkina, L. A., Reznichenko, L. A., Gadjiev, G. G., Bakmaev, A. G., Magomedov, M. -R. M., Omarov, Z. M., Aleshin, V. A.
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Language:English
Subjects:
Correlation analysis
Crystal structure
Dielectric properties
High temperature
Multiferroic materials
Phase composition
Thermophysical properties
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description An extensive study was performed to establish correlations between the crystal structure, the grain composition, and the dielectric and thermophysical properties of high-temperature multiferroics of the Bi1−x Dyx FeO3 type (x = = 0.05–0.20). It is shown that a trade-off between the macroresponses in the materials is achieved at x = 0.10; this circumstance permits recommendation of the materials for practical use.
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subjects Correlation analysis
Crystal structure
Dielectric properties
High temperature
Multiferroic materials
Phase composition
Thermophysical properties
title Phase composition, microstructure, and thermophysical and dielectric properties of multiferroic Bi1−x Dy x FeO3
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