Noncrystallographic structural deformation levels in strongly excited systems

V. E. Panin, Yu I. Meshcheryakov, T. F. Elsukova, A. K. Divakov, S. G. Psakh'e, M. M. Myshlyaev

Отделение материаловедения

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Аннотация

Therefore, the analysis performed in the previous sections on the experimental data and results of modelling by the molecular dynamics method permits making a deduction on the possibility of the formation of strongly excited systems of noncrystallographic structural deformation levels during loading. As an experimental investigation showed, for all the kinds of static loading utilized their origination is associated with the pre-fracture stages. Crack propagation over the noncrystallographic interfacial boundaries of the fragments indicates this. Under shockwave loading the macroflux motion with the grains is also a new, larger-scale dynamic deformation level (compared with the dislocation level).

Язык оригинала	Английский
Страницы (с-по)	180-190
Число страниц	11
Журнал	Soviet Physics Journal
Том	33
Номер выпуска	2
DOI	https://doi.org/10.1007/BF00894515
Состояние	Опубликовано - фев 1990

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ASJC Scopus subject areas

Physics and Astronomy(all)

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Panin, V. E., Meshcheryakov, Y. I., Elsukova, T. F., Divakov, A. K., Psakh'e, S. G., & Myshlyaev, M. M. (1990). Noncrystallographic structural deformation levels in strongly excited systems. Soviet Physics Journal, 33(2), 180-190. https://doi.org/10.1007/BF00894515

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author = "Panin, {V. E.} and Meshcheryakov, {Yu I.} and Elsukova, {T. F.} and Divakov, {A. K.} and Psakh'e, {S. G.} and Myshlyaev, {M. M.}",

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AU - Panin, V. E.

AU - Meshcheryakov, Yu I.

AU - Elsukova, T. F.

AU - Divakov, A. K.

AU - Psakh'e, S. G.

AU - Myshlyaev, M. M.

PY - 1990/2

Y1 - 1990/2

N2 - Therefore, the analysis performed in the previous sections on the experimental data and results of modelling by the molecular dynamics method permits making a deduction on the possibility of the formation of strongly excited systems of noncrystallographic structural deformation levels during loading. As an experimental investigation showed, for all the kinds of static loading utilized their origination is associated with the pre-fracture stages. Crack propagation over the noncrystallographic interfacial boundaries of the fragments indicates this. Under shockwave loading the macroflux motion with the grains is also a new, larger-scale dynamic deformation level (compared with the dislocation level).

AB - Therefore, the analysis performed in the previous sections on the experimental data and results of modelling by the molecular dynamics method permits making a deduction on the possibility of the formation of strongly excited systems of noncrystallographic structural deformation levels during loading. As an experimental investigation showed, for all the kinds of static loading utilized their origination is associated with the pre-fracture stages. Crack propagation over the noncrystallographic interfacial boundaries of the fragments indicates this. Under shockwave loading the macroflux motion with the grains is also a new, larger-scale dynamic deformation level (compared with the dislocation level).

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Доступ к документу

10.1007/BF00894515