Microcomposite ceramics modeling

Bibliographic Details
Parent link:	Korus 99.— , 1999 Vol. 2: Proceedings.— 1999.— P. 610-613
Main Author:	Vereshchagin (Vereschagin, Vereshagin) V. I. Vladimir Ivanovich
Other Authors:	Sergeyev M. A., Borodin Y. V.
Summary:	Computer modeling of microcomposite ceramic grain structure was carried out taking into account the correlative fields of C-particles, and the principles of high packing and self-similarity. The behavior of the spirally organized microcomposite ceramic structure model is in accordance with studies of polytypes, nano- and other mesoscopic particles. It was shown that in grains there is microplasticity within the 2D electron lattice due to the high mobility of self-organised mesoscopic particle blocks. Therefore a high level of size quantization and microplasticity intergrain structure is reached under low temperatures.
Language:	English
Published:	1999
Subjects:	труды учёных ТПУ
Format:	Book Chapter
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=226956

Description
Summary:	Computer modeling of microcomposite ceramic grain structure was carried out taking into account the correlative fields of C-particles, and the principles of high packing and self-similarity. The behavior of the spirally organized microcomposite ceramic structure model is in accordance with studies of polytypes, nano- and other mesoscopic particles. It was shown that in grains there is microplasticity within the 2D electron lattice due to the high mobility of self-organised mesoscopic particle blocks. Therefore a high level of size quantization and microplasticity intergrain structure is reached under low temperatures.

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