G. L. Khachatryan, S. L. Kharatyan, A. B. Arutyunyan, “Activated combustion of a silicon–carbon mixture in nitrogen and SHS of Si$_3$N$_4$–SiC composite ceramic powders and silicon carbide”, Fizika Goreniya i Vzryva, 42:5 (2006), 56–62; Combustion, Explosion and Shock Waves, 42:5 (2006), 543

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Fizika Goreniya i Vzryva, 2006, Volume 42, Issue 5, Pages 56–62 (Mi fgv1627)

This article is cited in 25 scientific papers (total in 25 papers)

Activated combustion of a silicon–carbon mixture in nitrogen and SHS of Si

_{3}

$_3$ N

$_4$ –SiC composite ceramic powders and silicon carbide

G. L. Khachatryan^a, S. L. Kharatyan^ab, A. B. Arutyunyan^a

^a Nalbandyan Institute of Chemical Physics, National Academy of Sciences, Republic of Armeniya, Yerevan, 375014
^b Yerevan State University, 375025, Yerevan, Republic of Armenia

Citations (25)

Abstract: It is established that Si

$_3$ N

$_4$ –SiC composites with a mass content of SiC 5–60% and a dominating content of the

$\beta$ -modification of silicon nitride can be produced by interaction of the components in the Si–C–N

$_2$ system in the combustion regime. It is found that the fraction of

$\alpha$ -Si

$_3$ N

$_4$ can be increased by diluting the starting mixture with the end products, but this leads to the occurrence of a certain amount of unreacted silicon in the products. It is shown that the use of chemical activation allows one to perform a single-stage synthesis of Si

$_3$ N

$_4$ –SiC composites with any contents of the individual components (from 0 to 100%), including pure carbide silicon.
Si

$_3$ N

$_4$ /SiC

Keywords: solid phase combustion, chemical activation, silicon carbide, silicon nitride.

Received: 16.08.2004

English version:
Combustion, Explosion and Shock Waves, 2006, Volume 42, Issue 5, Pages 543–548
DOI: https://doi.org/10.1007/s10573-006-0086-7

Bibliographic databases:

Document Type: Article

UDC: 536.46:546.281.261

Language: Russian

Citation: G. L. Khachatryan, S. L. Kharatyan, A. B. Arutyunyan, “Activated combustion of a silicon–carbon mixture in nitrogen and SHS of Si

$_3$ N

$_4$ –SiC composite ceramic powders and silicon carbide”, Fizika Goreniya i Vzryva, 42:5 (2006), 56–62; Combustion, Explosion and Shock Waves, 42:5 (2006), 543–548

Citation in format AMSBIB

\Bibitem{KhaKhaAru06}

\by G.~L.~Khachatryan, S.~L.~Kharatyan, A.~B.~Arutyunyan

\paper Activated combustion of a silicon--carbon mixture in nitrogen and SHS of Si$_3$N$_4$--SiC composite ceramic powders and silicon carbide

\jour Fizika Goreniya i Vzryva

\yr 2006

\vol 42

\issue 5

\pages 56--62

\mathnet{http://mi.mathnet.ru/fgv1627}

\elib{https://elibrary.ru/item.asp?id=16542262}

\transl

\jour Combustion, Explosion and Shock Waves

\yr 2006

\vol 42

\issue 5

\pages 543--548

\crossref{https://doi.org/10.1007/s10573-006-0086-7}

Linking options:

https://www.mathnet.ru/eng/fgv1627

https://www.mathnet.ru/eng/fgv/v42/i5/p56

This publication is cited in the following 25 articles:

Guanghua Liu, Kexin Chen, Jiangtao Li, Combustion Synthesis, 2025, 551
O. G. Kryukova, T. V. Tatarinova, “Sintez nitridsoderzhaschego kompozita pri azotirovanii smesi ferrosilitsii – shungit v rezhime goreniya”, Teoretičeskie osnovy himičeskoj tehnologii, 58:1 (2024), 55
O. G. Kryukova, T. V. Tatarinova, “Synthesis of a Nitride-Containing Composite by Nitriding a Ferrosilicon–Shungite Mixture in a Combustion Mode”, Theor Found Chem Eng, 58:4 (2024), 993
N. Amirkhanyan, H. Kirakosyan, M. Zakaryan, A. Zurnachyan, M.A. Rodriguez, L. Abovyan, S. Aydinyan, “Sintering of silicon carbide obtained by combustion synthesis”, Ceramics International, 49:15 (2023), 26129
G. S. Belova, Yu. V. Titova, A. P. Amosov, D. A. Maidan, “SHS of Highly Dispersed Si3N4–SiC Ceramic Composites from Si–NaN3–Na2SiF6–C Powder Mixture”, Int. J Self-Propag. High-Temp. Synth., 32:1 (2023), 15
A. P. Amosov, Yu. V. Titova, G. S. Belova, D. A. Maidan, A. F. Minekhanova, “SHS of highly dispersed powder compositions of nitrides with silicon carbide Review”, Izv. VUZ. Poroshk. Met., 2022, no. 4, 34
Sofiya Aydinyan, Suren Kharatyan, Irina Hussainova, “The Influence of Thermal Dilution on the Microstructure Evolution of Some Combustion-Synthesized Refractory Ceramic Composites”, Crystals, 12:1 (2022), 59
A. P. Amosov, G. S. Belova, Yu. V. Titova, D. A. Maidan, “Synthesis of Highly Dispersed Powder Ceramic Composition Si3N4–SiC by Combustion of Components in the Si–C–NaN3–NH4F System”, Russ. J. Inorg. Chem., 67:2 (2022), 123
G.S. Belova, Yu. V. Titova, A.P. Amosov, D.A. Maidan, 2021 International Scientific and Technical Engine Conference (EC), 2021, 1
Sofiya Aydinyan, Suren Kharatyan, Irina Hussainova, “SHS-Derived Powders by Reactions' Coupling as Primary Products for Subsequent Consolidation”, Materials, 14:17 (2021), 5117
Olga Kryukova, Aleksandr Avramchik, 2020 7th International Congress on Energy Fluxes and Radiation Effects (EFRE), 2020, 1209
Zi Yang, Zhimin Li, Tao Ning, Maolin Zhang, Yangxi Yan, Dongyan Zhang, Guozhong Cao, “Microwave dielectric properties of B and N co-doped SiC nanopowders prepared by combustion synthesis”, Journal of Alloys and Compounds, 777 (2019), 1039
Bofang Zhou, Keqin Feng, Hongling Zhou, “Joining of SiC ceramic by using the liquid polyvinylphenylsiloxane”, Advances in Applied Ceramics, 117:4 (2018), 212
Roberto Rosa, Paolo Veronesi, Cristina Leonelli, “A review on combustion synthesis intensification by means of microwave energy”, Chemical Engineering and Processing: Process Intensification, 71 (2013), 2
A.M. Baghdasaryan, M.A. Hobosyan, H.L. Khachatryan, O.M. Niazyan, S.L. Kharatyan, L.H. Sloyan, Y.G. Grigoryan, “The role of chemical activation on the combustion and phase formation laws in the Ni–Al-promoter system”, Chemical Engineering Journal, 188 (2012), 210
Vasyl Tomashik, “C-N-Si Ternary Phase Diagram Evaluation”, MSI Eureka, 49 (2012), 10.14907.1.7
Xiaolei Su, Wancheng Zhou, Jie Xu, Junbo Wang, Xinhai He, Chong Fu, Zhimin Li, H. J. Kleebe, “Preparation and Dielectric Property of Al and N Co‐Doped SiC Powder by Combustion Synthesis”, J. Am. Ceram. Soc., 95:4 (2012), 1388
S. L. Kharatyan, A. G. Merzhanov, “Coupled SHS Reactions as a useful tool for synthesis of materials: An overview”, Int. J Self-Propag. High-Temp. Synth., 21:1 (2012), 59
A.R. Zurnachyan, S.L. Kharatyan, H.L. Khachatryan, A.Gh. Kirakosyan, “Self-propagating high temperature synthesis of SiC–Cu and SiC–Al cermets: Role of chemical activation”, International Journal of Refractory Metals and Hard Materials, 29:2 (2011), 250
Vasyl Tomashik, Landolt-Börnstein - Group IV Physical Chemistry, 11E2, Refractory metal systems, 2010, 531

Citing articles in Google Scholar: Russian citations, English citations
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