Synthesis of B4C/CrB2 Powders by Boron-Carbide Reduction Using Nanofiber Carbon for the Fabrication of Ceramics

The results of studying the process of obtaining B 4 C/CrB 2 powder mixtures by the boron-carbide reduction of chromium oxide Cr 2 O 3 in the presence of nanofiber carbon and the results of studying some properties of ceramics made using the synthesized powder are presented. By the method of thermod...

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Bibliographic Details
Published in:Nanobiotechnology Reports (Online) 2023-12, Vol.18 (Suppl 1), p.S55-S62
Main Authors: Gudyma, T. S., Shestakov, V. A., Dik, D. V., Krutskii, Yu. L., Anisimov, A. G., Cherkasova, N. Yu, Ukhina, A. V.
Format: Article
Language:English
Subjects:
Boron
Boron carbide
Carbon
Ceramics
Chemistry and Materials Science
Chromium borides
Chromium oxides
Fracture toughness
Hot pressing
Industrial and Production Engineering
Machines
Manufacturing
Materials Science
Mixtures
Nanofibers
Nanomaterials for Functional and Structural Purposes
Nanotechnology
Oxidation
Processes
Reduction
Specific gravity
Synthesis
Thermodynamic models
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Summary:The results of studying the process of obtaining B 4 C/CrB 2 powder mixtures by the boron-carbide reduction of chromium oxide Cr 2 O 3 in the presence of nanofiber carbon and the results of studying some properties of ceramics made using the synthesized powder are presented. By the method of thermodynamic modeling, it is found that the minimum temperature of the complete reduction of Cr 2 O 3 by the boron-carbide reduction method is 1540°С at a pressure of ⁓0.08 MPa. The characteristics of powders containing 10–70 mol % of the CrB 2 phase are studied. The average size of 50% of the powder particles for the studied compositions does not exceed 11 µm. The specific surface area of the samples does not exceed 6 m 2 /g. The oxidation of the resulting mixtures with oxygen in air begins at a temperature of ~550°С. At the same time, when the temperature reaches 1000°С, no more than 65 wt % of powders is oxidized. Ceramics made using the synthesized powder mixture B 4 C–10 mol % CrB 2 by hot pressing have a relative density of 95% and fracture toughness of 5.25 ± 0.15 MPa m 0.5 .
ISSN:2635-1676
1995-0780
2635-1684
1995-0799
DOI:10.1134/S2635167623600517