Ultrahigh-Temperature Ceramic Based on ZrB.sub.2-SiC: Preparation and Main Properties

Hot pressing of commercially available powders is used to prepare dense ceramic based on ZrB.sub.2 -SiC with different additives (Si.sub.3N.sub.4, TiSi.sub.2, ZrSi.sub.2, MoSi.sub.2). The main physicomechanical properties are measured in macro-specimens: ultimate strength in static three-point bendi...

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Veröffentlicht in:	Refractories and industrial ceramics 2017-05, Vol.58 (1), p.46
Hauptverfasser:	Sokolov, P. S, Arakcheev, A. V, Mikhal'chik, I. L, Plyasunkova, L. A, Tkachev, A. V, Anuchin, S. A, Kordo, M. N
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Sprache:	eng
Schlagworte:	Ceramics Nitrides Powders (Particulate matter) Silicides Silicon carbides Thermal properties
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creator	Sokolov, P. S Arakcheev, A. V Mikhal'chik, I. L Plyasunkova, L. A Tkachev, A. V Anuchin, S. A Kordo, M. N
description	Hot pressing of commercially available powders is used to prepare dense ceramic based on ZrB.sub.2 -SiC with different additives (Si.sub.3N.sub.4, TiSi.sub.2, ZrSi.sub.2, MoSi.sub.2). The main physicomechanical properties are measured in macro-specimens: ultimate strength in static three-point bending at room temperature 400 - 600 MPa, Vickers microhardness up to 15 GPa, and critical stress intensity factor up to 5.9 MPa·m.sup.1/2. Average LTEC, thermal diffusivity, thermal conductivity, and oxidation resistance over a wide temperature range are determined. Altogether the ceramic properties obtained are at the level of published indices.
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title	Ultrahigh-Temperature Ceramic Based on ZrB.sub.2-SiC: Preparation and Main Properties
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