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Study of the Structural, Optical and Strength Properties of Glass-like (1−x)ZnO–0.25Al2O3–0.25WO3–xBi2O3 Ceramics

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dc.contributor.author Kozlovskiy, Artem L.
dc.contributor.author Seitbayev, Aibek S.
dc.contributor.author Borgekov, Daryn B.
dc.contributor.author Zdorovets, Maxim V.
dc.date.accessioned 2024-03-28T04:20:28Z
dc.date.available 2024-03-28T04:20:28Z
dc.date.issued 2022
dc.identifier.citation Kozlovskiy, A.L.; Seitbayev, A.S.; Borgekov, D.B.; Zdorovets, M.V. Study of the Structural, Optical and Strength Properties of Glass-like (1−x)ZnO–0.25Al2O3–0.25WO3– xBi2O3 Ceramics. Crystals 2022, 12, 1527. https://doi.org/10.3390/ cryst12111527 ru
dc.identifier.issn 2073-4352
dc.identifier.other doi.org/10.3390/ cryst12111527
dc.identifier.uri http://rep.enu.kz/handle/enu/13072
dc.description.abstract The main purpose of this work is to study the effect of substitution of zinc oxide for bismuth oxide in the composition of (1−x)ZnO–0.25Al2O3–0.25WO3–xBi2O3 ceramics, as well as the accompanying processes of phase transformations and their influence on the optical and strength properties of ceramics. The use of these oxide compounds as materials for creating shielding coatings or ceramics is due to the combination of their structural, optical, and strength properties, which make it possible to compete with traditional protective glasses based on rare earth oxide compounds. Interest in these types of ceramics is due to their potential for use as basic materials for shielding ionizing radiation as well as for use as radiation-resistant coatings. The main research methods were Xray diffractometry to determine the phase composition of ceramics; scanning electron microscopy and energy dispersive analysis to determine the morphological features and isotropy of the distribution of elements in the structure; and UV-V is spectroscopy to determine the optical properties of ceramics. During the studies, it was found that an increase in the Bi2O3 concentration leads to the formation of new phase inclusions in the form of orthorhombic Bi2WO6 and Bi2W2O9 phases, the appearance of which leads to an increase in the density of ceramics and a change in the dislocation density. An analysis of the strength properties, in particular, hardness and crack resistance, showed that a change in the phase composition of ceramics with an increase in the Bi2O3 concentration leads to a significant strengthening of the ceramics, which is due to the effect of the presence of interfacial boundaries as well as an increase in the dislocation density. ru
dc.language.iso en ru
dc.publisher Crystals ru
dc.relation.ispartofseries Volume 12;Issue 11
dc.subject protective ceramics ru
dc.subject doping ru
dc.subject strength properties ru
dc.subject absorption ru
dc.subject shielding ru
dc.subject shielding ru
dc.subject phase transformations ru
dc.title Study of the Structural, Optical and Strength Properties of Glass-like (1−x)ZnO–0.25Al2O3–0.25WO3–xBi2O3 Ceramics ru
dc.type Article ru


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