Modeling of temperature and rate dependence of the flow stress and evolution of a deformation defect medium in dispersion-hardened materials

Abstract

The influence of characteristics of the second phase, strain rate and temperature, and initial defect state of a material on the curves of deformation hardening and the kinetics of components of the defect subsystem is investigated using a mathematical model of the plastic deformation for dispersion-hardened materials with an incoherent hardening phase.

Original language	English
Pages (from-to)	1527-1531
Number of pages	5
Journal	Bulletin of the Russian Academy of Sciences: Physics
Volume	74
Issue number	11
DOIs	https://doi.org/10.3103/S1062873810110080
Publication status	Published - Nov 2010

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.3103/S1062873810110080

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Modeling of temperature and rate dependence of the flow stress and evolution of a deformation defect medium in dispersion-hardened materials. / Kolupaeva, S. N.; Kovalevskaya, T. A.; Daneyko, O. I.; Semenov, M. E.; Kulaeva, N. A.

In: Bulletin of the Russian Academy of Sciences: Physics, Vol. 74, No. 11, 11.2010, p. 1527-1531.

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

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abstract = "The influence of characteristics of the second phase, strain rate and temperature, and initial defect state of a material on the curves of deformation hardening and the kinetics of components of the defect subsystem is investigated using a mathematical model of the plastic deformation for dispersion-hardened materials with an incoherent hardening phase.",

author = "Kolupaeva, {S. N.} and Kovalevskaya, {T. A.} and Daneyko, {O. I.} and Semenov, {M. E.} and Kulaeva, {N. A.}",

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AU - Semenov, M. E.

AU - Kulaeva, N. A.

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AB - The influence of characteristics of the second phase, strain rate and temperature, and initial defect state of a material on the curves of deformation hardening and the kinetics of components of the defect subsystem is investigated using a mathematical model of the plastic deformation for dispersion-hardened materials with an incoherent hardening phase.

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Modeling of temperature and rate dependence of the flow stress and evolution of a deformation defect medium in dispersion-hardened materials

Abstract

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