Деформация меди в криогенных условиях

T.H. Konkova; S. Mironov; A. Korznikov

Деформация меди в криогенных условиях

Translated title of the contribution: Deformation of copper at cryogenic temperature

T.H. Konkova, S. Mironov, A. Korznikov

Design, Manufacturing And Engineering Management

Research output: Contribution to conference › Proceeding › peer-review

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Abstract

Grinding the size of grains in structural materials can significantly improve their strength characteristics under cold deformation conditions and plastic under hot conditions. As a result, there is a steady practical interest in developing technologies that will drastically reduce the size of the grains. Currently, materials scientists are faced with the task of forming submicrocrystalline and nanocrystalline (SMC and NC) structures, moreover, in volumes suitable for industrial use.

Translated title of the contribution	Deformation of copper at cryogenic temperature
Original language	Russian
Pages	171-172
Number of pages	2
Publication status	Published - 7 Dec 2009
Event	X International Conference "Ural Seminar of Young Material Scientists" - Yekaterinburg, Russian Federation Duration: 7 Dec 2009 → 11 Dec 2009

Conference

Conference	X International Conference "Ural Seminar of Young Material Scientists"
Country/Territory	Russian Federation
City	Yekaterinburg
Period	7/12/09 → 11/12/09

Keywords

copper
nanocrystal architectures
cold deformation
cryogenic deformation

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Konkova-etal-2009-Deformation-of-copper-at-cryogenicAccepted author manuscript, 256 KB

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title = "Деформация меди в криогенных условиях",

abstract = "Grinding the size of grains in structural materials can significantly improve their strength characteristics under cold deformation conditions and plastic under hot conditions. As a result, there is a steady practical interest in developing technologies that will drastically reduce the size of the grains. Currently, materials scientists are faced with the task of forming submicrocrystalline and nanocrystalline (SMC and NC) structures, moreover, in volumes suitable for industrial use.",

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T1 - Деформация меди в криогенных условиях

AU - Konkova, T.H.

AU - Mironov, S.

AU - Korznikov, A.

PY - 2009/12/7

Y1 - 2009/12/7

N2 - Grinding the size of grains in structural materials can significantly improve their strength characteristics under cold deformation conditions and plastic under hot conditions. As a result, there is a steady practical interest in developing technologies that will drastically reduce the size of the grains. Currently, materials scientists are faced with the task of forming submicrocrystalline and nanocrystalline (SMC and NC) structures, moreover, in volumes suitable for industrial use.

AB - Grinding the size of grains in structural materials can significantly improve their strength characteristics under cold deformation conditions and plastic under hot conditions. As a result, there is a steady practical interest in developing technologies that will drastically reduce the size of the grains. Currently, materials scientists are faced with the task of forming submicrocrystalline and nanocrystalline (SMC and NC) structures, moreover, in volumes suitable for industrial use.

KW - copper

KW - nanocrystal architectures

KW - cold deformation

KW - cryogenic deformation

M3 - Proceeding

SP - 171

EP - 172

Y2 - 7 December 2009 through 11 December 2009

ER -

Деформация меди в криогенных условиях

Abstract

Conference

Keywords

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