Synthesis of B4C/ZrB2 Composite Powders via Boron Carbide Reduction for Ceramic Fabrication.

Autor:	Gudyma, T. S., Krutskii, Yu. L., Maksimovskii, E. A., Ukhina, A. V., Aparnev, A. I., Smirnov, A. I., Uvarov, N. F.
Předmět:	BORON carbides POWDERS CERAMICS COMPOSITE materials CERAMIC powders ZIRCONIUM oxide ZIRCONIUM carbide
Zdroj:	Inorganic Materials; Sep2022, Vol. 58 Issue 9, p912-921, 10p
Abstrakt:	In this paper, we report the preparation of a B4C/ZrB2 composite powder material via boron carbide reduction of zirconium oxide in the presence of carbon nanofiber as a carbon reducing agent. The material was synthesized in the temperature range 1200–1900°C in 20 min. The optimal synthesis temperature was 1650°C, independent of the starting-mixture composition. We have studied characteristics of the composite powders containing 10–30 mol % ZrB2. The 50% particle size of the composite powders with the compositions studied does not exceed 9.5 μm. The powders consist of aggregated particles of the B4C and ZrB2 phases up to 10 and 40 μm in size, respectively. Visual analysis of micrographs of the powders showed that the mixtures containing 20–30 mol % ZrB2 had a uniform modifying additive distribution over the B4C particles and that the content of large and medium inclusions did not exceed 15 vol %. The specific surface area of the samples ranged from 1.3 to 2.1 m2/g. The zirconium diboride particles were uniformly distributed over the boron carbide matrix. Increasing the ZrB2 content of the composite powder material from 10 to 30 mol % improved the thermal stability of the material in an oxidizing medium. The composite material is potentially attractive for ceramic fabrication. [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
Externí odkaz:	Zobrazit plný text záznamu Plný text ve formátu HTML
Nepřihlášeným uživatelům se plný text nezobrazuje	K zobrazení výsledku je třeba se přihlásit.