Exploring the possibility of synthesis of Si3N4-SiC highly dispersed ceramic nitride-carbide composition during combustion in Si–NaN3–(NH4)2SiF6–C system

Maidan D. A.; Uvarova I. A.; Belova G. S.; Amosov A. P.; Titova Yu V.

Отрывок: The XRD results show the formation of four phases: the main phase of silicon nitride of two modifications (α-Si3N4 and β-Si3N4) with a significantly higher content of α-modification, silicon carbide (SiC), as well as a small amount of free silicon (Si) and carbon (C), (hereinafter indicated in wt.%): α-Si3N4 - 57.6%, β-Si3N4 - 22.1%, SiC - 17.0%...

Полная запись метаданных

Поле DC	Значение	Язык
dc.contributor.author	Belova G. S.	ru
dc.contributor.author	Titova Yu V.	ru
dc.contributor.author	Amosov A. P.	ru
dc.contributor.author	Maidan D. A.	ru
dc.contributor.author	Uvarova I. A.	ru
dc.coverage.spatial	прочность	ru
dc.coverage.spatial	твердость материалов	ru
dc.coverage.spatial	химическая стабильность	ru
dc.coverage.spatial	композитные материалы	ru
dc.coverage.spatial	композиты	ru
dc.coverage.spatial	нитрид кремния	ru
dc.coverage.spatial	composite materials	ru
dc.coverage.spatial	composites	ru
dc.coverage.spatial	ceramic single-phase material	ru
dc.coverage.spatial	chemical stability	ru
dc.coverage.spatial	high temperatures	ru
dc.coverage.spatial	hardness of materials	ru
dc.coverage.spatial	silicon carbide	ru
dc.coverage.spatial	silicon nitride	ru
dc.coverage.spatial	strength	ru
dc.coverage.spatial	карбид кремния	ru
dc.coverage.spatial	керамические однофазные материалы	ru
dc.coverage.spatial	высокие температуры	ru
dc.creator	Belova G. S., Titova Yu V., Amosov A. P., Maidan D. A., Uvarova I. A.	ru
dc.date.accessioned	2022-10-06 14:29:38	-
dc.date.available	2022-10-06 14:29:38	-
dc.date.issued	2022	ru
dc.identifier	RU\НТБ СГАУ\488283	ru
dc.identifier.citation	Exploring the possibility of synthesis of Si3N4-SiC highly dispersed ceramic nitride-carbide composition during combustion in Si–NaN3–(NH4)2SiF6–C system / G. S. Belova, Yu V. Titova, A. P. Amosov, D. A. Maidan, I. A. Uvarova // International Conference on Physics and Chemistry of Combustion and in Extreme Environments (Samara, Russia, 12-16 July 2022) / V. N. Azyazov, A. M. Mayorova. - Samara : Publishing OOO “Insoma-Press”, 2022. - P. 32.	ru
dc.identifier.uri	http://repo.ssau.ru/handle/International-Conference/Exploring-the-possibility-of-synthesis-of-Si3N4SiC-highly-dispersed-ceramic-nitridecarbide-composition-during-combustion-in-Si–NaN3–NH42SiF6–C-system-98899	-
dc.language.iso	eng	ru
dc.source	International Conference on Physics and Chemistry of Combustion and in Extreme Environments (Samara, Russia, 12-16 July 2022)	ru
dc.title	Exploring the possibility of synthesis of Si3N4-SiC highly dispersed ceramic nitride-carbide composition during combustion in Si–NaN3–(NH4)2SiF6–C system	ru
dc.type	Text	ru
dc.textpart	The XRD results show the formation of four phases: the main phase of silicon nitride of two modifications (α-Si3N4 and β-Si3N4) with a significantly higher content of α-modification, silicon carbide (SiC), as well as a small amount of free silicon (Si) and carbon (C), (hereinafter indicated in wt.%): α-Si3N4 - 57.6%, β-Si3N4 - 22.1%, SiC - 17.0%...	-
Располагается в коллекциях:	International Conference on Combustion Physics and Chemistry

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