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19.07.2018 | SCIENCE FOR CERAMIC PRODUCTION

Effect of High Boron Additive Content on SPS-Consolidation and Properties of Commercial Silicon Carbide Powder

verfasst von: S. Yu. Modin, N. A. Popova, Yu. E. Lebedeva, A. S. Chainikova, D. V. Grashchenkov, I. V. Osin, D. O. Lemeshev

Erschienen in: Glass and Ceramics | Ausgabe 3-4/2018

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Abstract

Consolidation of commercial silicon carbide powder was performed by means of spark plasma sintering. It is shown that mechanical preactivation is a promising method for introducing a high content of boron additives into silicon carbide. The effect of the boron-additive amount on sintering, microstructure, and properties of the ceramic material was studied. A ceramic showing promise for use as a structural material in nuclear reactors and gas-turbine engines was obtained on the basis of silicon carbide with boron weight content 10%, density 3.12 g/cm³, hardness 31.9 GPa, and crack resistance 5.65 MPa·m^1/2.

Vorheriger Artikel Technological Aspects of the Production of Optically Transparent Glass Ceramic Materials Based on Lithium-Silicate Glasses

Nächster Artikel Determination of the Average Capillary Radius of Porous Materials

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Here and below, content by weight, %.

E. N. Kablov, D. V. Grashchenko, N. V. Isaeva, et al., “Promising high-temperature ceramic composite materials,” Ross. Khim. Zh., 54(1), 20 – 24 (2010).

V. G. Sevast’yanov, E. P. Simonenko, D. V. Grashchenko, et al., “Production of filamentary silicon carbide crystals by the sol-gel method in the bulk of SiC ceramic,” Kompozity Nanostrukt., 6(4), 198 – 211 (2014).

E. N. Kablov, “Composites: today and tomorrow,” Metally Evrazii, No. 1, 36 – 39 (2015).

A. S. Chainikova, M. L. Vaganov, N. E. Shchegoleva, and Yu. E. Lebedev, “Technological aspects of the production of radio-transparent glass ceramic materials based on high-temperature aluminum silicate systems,” Tr. VIAM: Electron. Nauch.-Tekhn. Zh., No. 12, Article No. 04 (2015); URL: http://www.viam-works.ru (Date of access December 10, 2016). dx.doi.org/10.18577/2307-6046-2015-0-11-4-4.

Yu. E. Lebedev, N. V. Popovich, and L. A. Orlova, “Protective high temperature coatings for composite materials based on SiC,” Tr. VIAM: Electron. Nauch.-Tekhn. Zh., No. 2, Article No. 06 (2013); URL: http://www.viam-works.ru (Date of access December 10, 2016).

Yu. E. Levedev, D. V. Grashchenko, N. V. Popovich, et al., “Development and research of heat-stable coatings obtained by the sol-gel method in the system Y₂O₃–Al₂O₃–SiO₂ for SiC-containing materials,” Tr. VIAM: Electron. Nauch.-Tekhn. Zh., No. 12, Article No. 03 (2013); URL: http://www.viam-works.ru (Date of access December 10, 2016).

Y. Katoh, L. L. Snead, and C. H. Henager, “Current status and critical issues for development of SiC composites for fusion applications,” J. Nuclear Mater., 367 – 370, 659 – 671 (2007).

H. Gu, Y. Shinoda, and F. Wakai, “Detection of boron segregation to grain boundaries in silicon carbide by partially resolved electron energy-loss spectroscopy,” J. Am. Ceram. Soc., 82(2), 469 – 472 (1999).CrossRef

A. Malinge, A. Coupe, Y. Le Petitcorps, and R. Pailler, “Pressureless sintering of beta silicon carbide nanoparticles,” J. Europ. Ceram. Soc., 32, 4393 – 4400 (2012).

10.

E. Elzbieta, W. Ptak, and L. Stobierski, “Influence of sintering activators on structure of silicon carbide,” Solid State Ionics, 141 – 142, 523 – 528 (2001).

11.

D. A. Ray, S. Kaur, and R. A. Cutler, “Effect of additives on the activation energy for sintering of silicon carbide,” J. Am. Ceram. Soc., 91 [4], 1135 – 1140 (2008).

12.

P. Barick, D. Chakravarty, and B. P. Saha, “Effect of pressure and temperature on densification, microstructure and mechanical properties of spark plasma sintered silicon carbide processed with β-silicon carbide nanopowder and sintering additives,” Ceram. Int., 42, 3836 – 3848 (2016).CrossRef

13.

R. San Millan Torresilyas, N. B. Salis Pinargote, A. A. Okun’kova, and P. Yu. Peretyagin, Principles of the Process of Spark Plasma Sintering of Nanopowders [in Russian], Tekhnosfera, Moscow (2014).

14.

K. A. Niihara, “Fracture mechanics analysis of indentation-induced Palmqvist crack in ceramics,” J. Mater. Sci. Lett., 2, 221 – 223 (1983).CrossRef

15.

E. G. Avvakumov and A. A. Gusev, Mechanical Methods of Activation and the Processing of Native and Technogenic Raw Materials [in Russian], Geo, Novosibirsk (2009).

16.

E. N. Kablov, “Innovative development work at FGUP VIAM GNTS RF on the realization of strategic directions of development of materials and their processing technologies in the period to 2030,” Aviats. Mater. Tekhnol., No. 1(34), 3 – 33 (2015); DOI: https://doi.org/10.18577/2071-9140-2015-0-1-3-33.

Titel: Effect of High Boron Additive Content on SPS-Consolidation and Properties of Commercial Silicon Carbide Powder
verfasst von: S. Yu. Modin
N. A. Popova
Yu. E. Lebedeva
A. S. Chainikova
D. V. Grashchenkov
I. V. Osin
D. O. Lemeshev
Publikationsdatum: 19.07.2018
Verlag: Springer US
Erschienen in: Glass and Ceramics / Ausgabe 3-4/2018
Print ISSN: 0361-7610
Elektronische ISSN: 1573-8515
DOI: https://doi.org/10.1007/s10717-018-0042-5

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