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Investigation of the Phase Composition, Structural, Mechanical, and Dielectric Properties of (1 − x)·ZrO2-x·CeO2 Ceramics Synthesized by the Solid-State Method

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dc.contributor.author Giniyatova, Sholpan G.
dc.contributor.author Shakirzyanov, Rafael I.
dc.contributor.author Garanin, Yuriy A.
dc.contributor.author Sailaukhanov, Nurzhan A.
dc.contributor.author Kozlovskiy, Artem L.
dc.contributor.author Volodina, Natalia O.
dc.contributor.author Shlimas, Dmitriy I.
dc.contributor.author Borgekov, Daryn B.
dc.date.accessioned 2024-11-28T07:36:21Z
dc.date.available 2024-11-28T07:36:21Z
dc.date.issued 2024
dc.identifier.citation Giniyatova, S.G.; Shakirzyanov, R.I.; Garanin, Y.A.; Sailaukhanov, N.A.; Kozlovskiy, A.L.; Volodina, N.O.; Shlimas, D.I.; Borgekov, D.B. Investigation of the Phase Composition, Structural, Mechanical, and Dielectric Properties of (1 − x)·ZrO2-x·CeO2 Ceramics Synthesized by the Solid-State Method. Appl. Sci. 2024, 14, 2663. https://doi.org/10.3390/ app14062663 ru
dc.identifier.issn 2998-9159
dc.identifier.other doi.org/10.3390/ app14062663
dc.identifier.uri http://rep.enu.kz/handle/enu/19492
dc.description.abstract Ceramics based on zirconium dioxide are very important compounds for dental, implant, and structural material applications. Despite the fact that tetragonally stabilized YSZ has been well studied, the search for new compositions of zirconia-based ceramics is still in progress. The ZrO2 -CeO2 system is one of the alternatives for YSZ materials, but there is conflicting experimental data on its phase composition and mechanical properties depending on the ratio of components. In this study, we investigated the phase composition, and microstructural, mechanical, and physical properties of (1 − x)·ZrO2 -x·CeO2 (step of x = 0.05) ceramics obtained by the solid-state sintering process from micron-sized powders. For the characterization of samples, XRD, Raman spectroscopy, SEM, the Vickers Microhardness Test, and dielectric spectroscopy were implemented. The results showed that by varying the CeO2 concentration, it is possible to synthesize stable tetragonal ZrO2 at room temperature with a high microhardness HV0.05 value of ~1500, low porosity (~2.5%), and a high dielectric constant of 36. The pronounced combined effect of tetragonal phase formation, densification, and grain size reduction on the mechanical and dielectric properties of the experimental samples was investigated. Refined experimental data make it possible to synthesize high-quality zirconia–ceria ceramics for use as refractories, dispersed nuclear fuel, or solid oxide fuel cells. ru
dc.language.iso en ru
dc.publisher Applied Sciences ru
dc.relation.ispartofseries 14, 2663;
dc.subject tetragonal zirconia ru
dc.subject ceria ru
dc.subject microhardness ru
dc.subject permittivity ru
dc.subject microstructure ru
dc.title Investigation of the Phase Composition, Structural, Mechanical, and Dielectric Properties of (1 − x)·ZrO2-x·CeO2 Ceramics Synthesized by the Solid-State Method ru
dc.type Article ru


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