A possible method of computer-aided design of materials with a highly porous matrix structure based on the method of moving cellular automata

Abstract

The method of moving cellular automata was used to model a sample of ZrO₂ ceramic with a matrix structure under conditions of uniaxial compression. Studies were made of the strength and type of damage to the initial structure and its modifications. Particular attention was devoted to studying the influence of characteristics of the matrix structure on the formation and suppression of internal stress macroconcentrators. It is shown that the method of moving cellular automata can be used for the computer-aided design of matrix materials with a complex structure by specifically influencing the formation and evolution of stress macroconcentrators.

Original language	English
Pages (from-to)	154-156
Number of pages	3
Journal	Technical Physics Letters
Volume	24
Issue number	2
Publication status	Published - Feb 1998

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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A possible method of computer-aided design of materials with a highly porous matrix structure based on the method of moving cellular automata. / Psakh'e, S. G.; Moiseenko, D. D.; Dmitriev, A. I.; Shil'ko, E. V.; Korostelev, S. Yu; Smolin, A. Yu; Deryugin, E. E.; Kul'kov, S. N.

In: Technical Physics Letters, Vol. 24, No. 2, 02.1998, p. 154-156.

Research output: Contribution to journal › Article › peer-review

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title = "A possible method of computer-aided design of materials with a highly porous matrix structure based on the method of moving cellular automata",

abstract = "The method of moving cellular automata was used to model a sample of ZrO2 ceramic with a matrix structure under conditions of uniaxial compression. Studies were made of the strength and type of damage to the initial structure and its modifications. Particular attention was devoted to studying the influence of characteristics of the matrix structure on the formation and suppression of internal stress macroconcentrators. It is shown that the method of moving cellular automata can be used for the computer-aided design of matrix materials with a complex structure by specifically influencing the formation and evolution of stress macroconcentrators.",

author = "Psakh'e, {S. G.} and Moiseenko, {D. D.} and Dmitriev, {A. I.} and Shil'ko, {E. V.} and Korostelev, {S. Yu} and Smolin, {A. Yu} and Deryugin, {E. E.} and Kul'kov, {S. N.}",

year = "1998",

month = feb,

language = "English",

volume = "24",

pages = "154--156",

journal = "Soviet Technical Physics Letters (English Translation of Pis'ma v Zhurnal Tekhnicheskoi Fiziki)",

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AU - Psakh'e, S. G.

AU - Moiseenko, D. D.

AU - Dmitriev, A. I.

AU - Shil'ko, E. V.

AU - Korostelev, S. Yu

AU - Smolin, A. Yu

AU - Deryugin, E. E.

AU - Kul'kov, S. N.

PY - 1998/2

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AB - The method of moving cellular automata was used to model a sample of ZrO2 ceramic with a matrix structure under conditions of uniaxial compression. Studies were made of the strength and type of damage to the initial structure and its modifications. Particular attention was devoted to studying the influence of characteristics of the matrix structure on the formation and suppression of internal stress macroconcentrators. It is shown that the method of moving cellular automata can be used for the computer-aided design of matrix materials with a complex structure by specifically influencing the formation and evolution of stress macroconcentrators.

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A possible method of computer-aided design of materials with a highly porous matrix structure based on the method of moving cellular automata

Abstract

ASJC Scopus subject areas

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