Ultrasound technology of structure and functional nanoceramics production

Abstract

Method of dry ultrasonic compacting of ceramic nanopowders has been developed for improvement of homogeneity of complex shaped compacts with retaining their nanostructure. It is possible to produce a dense ceramics of 10-100 nm grain size and high mechanical and other properties with the help of this method. The one-parameter equation for account of the process of ceramic nanopowders compaction has been derived taking into consideration the powders elastic properties. On the base of the method proposed, an economy-type technology of nanoceramic products manufacturing is developed.

Original language	English
Pages (from-to)	24-30
Number of pages	7
Journal	Fizika i Khimiya Obrabotki Materialov
Issue number	5
Publication status	Published - 2001

ASJC Scopus subject areas

Materials Science(all)

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title = "Ultrasound technology of structure and functional nanoceramics production",

abstract = "Method of dry ultrasonic compacting of ceramic nanopowders has been developed for improvement of homogeneity of complex shaped compacts with retaining their nanostructure. It is possible to produce a dense ceramics of 10-100 nm grain size and high mechanical and other properties with the help of this method. The one-parameter equation for account of the process of ceramic nanopowders compaction has been derived taking into consideration the powders elastic properties. On the base of the method proposed, an economy-type technology of nanoceramic products manufacturing is developed.",

author = "Khasanov, {O. L.} and Sokolov, {V. M.} and Dvilis, {E. S.} and Pokholkov, {Yu P.}",

year = "2001",

language = "English",

pages = "24--30",

journal = "Fizika i Khimiya Obrabotki Materialov",

issn = "0015-3214",

publisher = "Izdatel'stvo Nauka",

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AU - Sokolov, V. M.

AU - Dvilis, E. S.

AU - Pokholkov, Yu P.

PY - 2001

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N2 - Method of dry ultrasonic compacting of ceramic nanopowders has been developed for improvement of homogeneity of complex shaped compacts with retaining their nanostructure. It is possible to produce a dense ceramics of 10-100 nm grain size and high mechanical and other properties with the help of this method. The one-parameter equation for account of the process of ceramic nanopowders compaction has been derived taking into consideration the powders elastic properties. On the base of the method proposed, an economy-type technology of nanoceramic products manufacturing is developed.

AB - Method of dry ultrasonic compacting of ceramic nanopowders has been developed for improvement of homogeneity of complex shaped compacts with retaining their nanostructure. It is possible to produce a dense ceramics of 10-100 nm grain size and high mechanical and other properties with the help of this method. The one-parameter equation for account of the process of ceramic nanopowders compaction has been derived taking into consideration the powders elastic properties. On the base of the method proposed, an economy-type technology of nanoceramic products manufacturing is developed.

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