Plastic deformation of copper at cryogenic temperature

Tatyana Konkova, A. Korznikov, S. Mironov

Research output: Contribution to conferenceProceeding

Abstract

The production of submicrocrystalline and nanocrystalline materials with desired properties is an important task of modern materials science [1]. One of the promising directions in this area is deformation at a cryogenic temperature [2-5]. However, the effectiveness of this approach is not yet completely clear, and therefore the urgent task is to study the microstructure after cryogenic deformation, as well as the mechanisms of its formation.
Translated title of the contributionPlastic deformation of copper at cryogenic temperature
LanguageRussian
Pages122
Number of pages1
Publication statusPublished - 13 Oct 2011
EventInternational conference for young researchers “Nanomaterials and nanotechnologies in Metallurgy and Materials Science” - Belgorod, Russian Federation
Duration: 13 Oct 201115 Oct 2011

Conference

ConferenceInternational conference for young researchers “Nanomaterials and nanotechnologies in Metallurgy and Materials Science”
CountryRussian Federation
CityBelgorod
Period13/10/1115/10/11

Fingerprint

Cryogenics
Plastic deformation
Copper
Nanocrystalline materials
Materials science
Temperature
Microstructure

Keywords

  • plastics
  • copper
  • plastic deformation
  • cryogenic temperatures

Cite this

Konkova, T., Korznikov, A., & Mironov, S. (2011). Пластическая деформация меди при криогенной температуре. 122. International conference for young researchers “Nanomaterials and nanotechnologies in Metallurgy and Materials Science”, Belgorod, Russian Federation.
Konkova, Tatyana ; Korznikov, A. ; Mironov, S. / Пластическая деформация меди при криогенной температуре. International conference for young researchers “Nanomaterials and nanotechnologies in Metallurgy and Materials Science”, Belgorod, Russian Federation.1 p.
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Konkova, T, Korznikov, A & Mironov, S 2011, 'Пластическая деформация меди при криогенной температуре' International conference for young researchers “Nanomaterials and nanotechnologies in Metallurgy and Materials Science”, Belgorod, Russian Federation, 13/10/11 - 15/10/11, pp. 122.

Пластическая деформация меди при криогенной температуре. / Konkova, Tatyana; Korznikov, A.; Mironov, S.

2011. 122 International conference for young researchers “Nanomaterials and nanotechnologies in Metallurgy and Materials Science”, Belgorod, Russian Federation.

Research output: Contribution to conferenceProceeding

TY - CONF

T1 - Пластическая деформация меди при криогенной температуре

AU - Konkova, Tatyana

AU - Korznikov, A.

AU - Mironov, S.

PY - 2011/10/13

Y1 - 2011/10/13

N2 - The production of submicrocrystalline and nanocrystalline materials with desired properties is an important task of modern materials science [1]. One of the promising directions in this area is deformation at a cryogenic temperature [2-5]. However, the effectiveness of this approach is not yet completely clear, and therefore the urgent task is to study the microstructure after cryogenic deformation, as well as the mechanisms of its formation.

AB - The production of submicrocrystalline and nanocrystalline materials with desired properties is an important task of modern materials science [1]. One of the promising directions in this area is deformation at a cryogenic temperature [2-5]. However, the effectiveness of this approach is not yet completely clear, and therefore the urgent task is to study the microstructure after cryogenic deformation, as well as the mechanisms of its formation.

KW - plastics

KW - copper

KW - plastic deformation

KW - cryogenic temperatures

UR - https://www.nanospd.org

M3 - Proceeding

SP - 122

ER -

Konkova T, Korznikov A, Mironov S. Пластическая деформация меди при криогенной температуре. 2011. International conference for young researchers “Nanomaterials and nanotechnologies in Metallurgy and Materials Science”, Belgorod, Russian Federation.

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