Influence of low-temperature annealing on the microstructure of cryogenically deformed copper

Tatyana Kon'kova; S. Yu Mironov; A. V. Korznikov; M. M. Myshlyaev

doi:10.1134/S1063783414020140

Influence of low-temperature annealing on the microstructure of cryogenically deformed copper

Tatyana Kon'kova, S. Yu Mironov, A. V. Korznikov, M. M. Myshlyaev

Design, Manufacturing And Engineering Management

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

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Abstract

The microstructure formation during annealing of cryogenically deformed copper was studied. It was shown that the primary recrystallization was completed already after a one-hour annealing at 150°C. It was found out that grains with the crystallographic orientation close to {112}〈111〉, {4; 4; 11}〈11; 11; 8〉, {110}〈122〉, and {130}〈132〉 had an advantage in the growth, which, apparently, was associated with a relatively low energy stored during the deformation.

Original language	English
Pages (from-to)	235-241
Number of pages	7
Journal	Physics of the Solid State
Volume	56
Issue number	2
DOIs	https://doi.org/10.1134/S1063783414020140
Publication status	Published - 15 Feb 2014

Keywords

microstructure
copper
submicrocrystalline structure
plastic deformations

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AU - Kon'kova, Tatyana

AU - Mironov, S. Yu

AU - Korznikov, A. V.

AU - Myshlyaev, M. M.

PY - 2014/2/15

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N2 - The microstructure formation during annealing of cryogenically deformed copper was studied. It was shown that the primary recrystallization was completed already after a one-hour annealing at 150°C. It was found out that grains with the crystallographic orientation close to {112}〈111〉, {4; 4; 11}〈11; 11; 8〉, {110}〈122〉, and {130}〈132〉 had an advantage in the growth, which, apparently, was associated with a relatively low energy stored during the deformation.

AB - The microstructure formation during annealing of cryogenically deformed copper was studied. It was shown that the primary recrystallization was completed already after a one-hour annealing at 150°C. It was found out that grains with the crystallographic orientation close to {112}〈111〉, {4; 4; 11}〈11; 11; 8〉, {110}〈122〉, and {130}〈132〉 had an advantage in the growth, which, apparently, was associated with a relatively low energy stored during the deformation.

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KW - submicrocrystalline structure

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