Mechanical behaviour of copper subjected to shockwave loading

T.H. Konkova, G. Salischev

Research output: Contribution to conferenceProceeding

Abstract

High-speed deformation allows you to create increased stresses in the material and thereby activate new deformation and fracture mechanisms. The grain size of the material is also capable of changing the deformation mechanisms and its mechanical behavior. In this connection, the purpose of this work was to study the effect of grain size on structural changes and strength properties of copper subjected to high-speed deformation by the action of shock waves of various amplitudes.
Translated title of the contributionMechanical behaviour of copper subjected to shockwave loading
LanguageRussian
Number of pages1
Publication statusPublished - 4 Feb 2008
EventXIX Ural School of material scientists - Yekaterinburg, Russian Federation
Duration: 4 Feb 20088 Feb 2008

Conference

ConferenceXIX Ural School of material scientists
CountryRussian Federation
CityYekaterinburg
Period4/02/088/02/08

Fingerprint

Copper
Shock waves

Keywords

  • high speed deformation
  • coper
  • shock wave loading

Cite this

Konkova, T. H., & Salischev, G. (2008). Механическое поведение меди, подвергнутой ударно-волновому нагружению. XIX Ural School of material scientists, Yekaterinburg, Russian Federation.
Konkova, T.H. ; Salischev, G. / Механическое поведение меди, подвергнутой ударно-волновому нагружению. XIX Ural School of material scientists, Yekaterinburg, Russian Federation.1 p.
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title = "Механическое поведение меди, подвергнутой ударно-волновому нагружению",
abstract = "High-speed deformation allows you to create increased stresses in the material and thereby activate new deformation and fracture mechanisms. The grain size of the material is also capable of changing the deformation mechanisms and its mechanical behavior. In this connection, the purpose of this work was to study the effect of grain size on structural changes and strength properties of copper subjected to high-speed deformation by the action of shock waves of various amplitudes.",
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Konkova, TH & Salischev, G 2008, 'Механическое поведение меди, подвергнутой ударно-волновому нагружению' XIX Ural School of material scientists, Yekaterinburg, Russian Federation, 4/02/08 - 8/02/08, .

Механическое поведение меди, подвергнутой ударно-волновому нагружению. / Konkova, T.H.; Salischev, G.

2008. XIX Ural School of material scientists, Yekaterinburg, Russian Federation.

Research output: Contribution to conferenceProceeding

TY - CONF

T1 - Механическое поведение меди, подвергнутой ударно-волновому нагружению

AU - Konkova, T.H.

AU - Salischev, G.

PY - 2008/2/4

Y1 - 2008/2/4

N2 - High-speed deformation allows you to create increased stresses in the material and thereby activate new deformation and fracture mechanisms. The grain size of the material is also capable of changing the deformation mechanisms and its mechanical behavior. In this connection, the purpose of this work was to study the effect of grain size on structural changes and strength properties of copper subjected to high-speed deformation by the action of shock waves of various amplitudes.

AB - High-speed deformation allows you to create increased stresses in the material and thereby activate new deformation and fracture mechanisms. The grain size of the material is also capable of changing the deformation mechanisms and its mechanical behavior. In this connection, the purpose of this work was to study the effect of grain size on structural changes and strength properties of copper subjected to high-speed deformation by the action of shock waves of various amplitudes.

KW - high speed deformation

KW - coper

KW - shock wave loading

M3 - Proceeding

ER -

Konkova TH, Salischev G. Механическое поведение меди, подвергнутой ударно-волновому нагружению. 2008. XIX Ural School of material scientists, Yekaterinburg, Russian Federation.