Boron nitrides with packets of nanotubes for microcomposite ceramics

Abstract

Opportunity for creating the microcomposite technical ceramics on basis of boron pyronitride with nanotubes and packets of nanotubes providing high microplasticity has been considered. It has been shown that irradiation with nanosecond proton-ion beams makes it possible to provide growth of wurzite-like boron pyronitride on basis of the self-organizing mesoscopic particles, mesoscopic blocks and nanocrystalline particles. Sizes of mesoscopic particles and mesoscopic blocks have been determined. Mode of the nanotube self-organization has been found. Model shapes of manifestation of spiral cyclic structures have been identified.

Original language	English
Pages (from-to)	27-30
Number of pages	4
Journal	Ogneupory i Tekhnicheskaya Keramika
Issue number	12
Publication status	Published - 2000

ASJC Scopus subject areas

Ceramics and Composites

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abstract = "Opportunity for creating the microcomposite technical ceramics on basis of boron pyronitride with nanotubes and packets of nanotubes providing high microplasticity has been considered. It has been shown that irradiation with nanosecond proton-ion beams makes it possible to provide growth of wurzite-like boron pyronitride on basis of the self-organizing mesoscopic particles, mesoscopic blocks and nanocrystalline particles. Sizes of mesoscopic particles and mesoscopic blocks have been determined. Mode of the nanotube self-organization has been found. Model shapes of manifestation of spiral cyclic structures have been identified.",

author = "Vereshchagin, {V. I.} and Sergeev, {M. A.} and Semukhin, {B. S.} and Borodin, {Yu V.}",

year = "2000",

language = "English",

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journal = "Ogneupory i Tekhnicheskaya Keramika",

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AU - Vereshchagin, V. I.

AU - Sergeev, M. A.

AU - Semukhin, B. S.

AU - Borodin, Yu V.

PY - 2000

Y1 - 2000

N2 - Opportunity for creating the microcomposite technical ceramics on basis of boron pyronitride with nanotubes and packets of nanotubes providing high microplasticity has been considered. It has been shown that irradiation with nanosecond proton-ion beams makes it possible to provide growth of wurzite-like boron pyronitride on basis of the self-organizing mesoscopic particles, mesoscopic blocks and nanocrystalline particles. Sizes of mesoscopic particles and mesoscopic blocks have been determined. Mode of the nanotube self-organization has been found. Model shapes of manifestation of spiral cyclic structures have been identified.

AB - Opportunity for creating the microcomposite technical ceramics on basis of boron pyronitride with nanotubes and packets of nanotubes providing high microplasticity has been considered. It has been shown that irradiation with nanosecond proton-ion beams makes it possible to provide growth of wurzite-like boron pyronitride on basis of the self-organizing mesoscopic particles, mesoscopic blocks and nanocrystalline particles. Sizes of mesoscopic particles and mesoscopic blocks have been determined. Mode of the nanotube self-organization has been found. Model shapes of manifestation of spiral cyclic structures have been identified.

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Boron nitrides with packets of nanotubes for microcomposite ceramics

Abstract

ASJC Scopus subject areas

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