On recrystallization texture formation in polycrystalline fcc alloys with low stacking fault energies

Krzysztof Sztwiertnia

doi:10.3139/146.101616

Article

On recrystallization texture formation in polycrystalline fcc alloys with low stacking fault energies

Krzysztof Sztwiertnia

Published/Copyright: March 1, 2013

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From the journal International Journal of Materials Research Volume 99 Issue 2

Abstract

The texture and microstructure transformations during the annealing of highly cold-rolled silver, α-brass and phosphorus copper were studied using electron microscopy and calorimetry. The results imply that recrystallization is a superposition of several local processes which proceed in two stages. In all materials analyzed, the first stage is governed by oriented nucleation, comprising the nucleation of new grains in the areas of localized strain and their further growth accompanied by the generation of recrystallization twins. The orientation distributions of nuclei and the new grains of all materials analyzed have certain features in common at the beginning of recrystallization. The second stage in phosphorus copper is governed by oriented nucleation, while in silver and in α-brass, it is dominated by oriented growth of grains, characterized by low orientation pinning.

Keywords:: Copper alloys; Silver; Recrystallization; Nucleation; Textures

² Correspondence address: Krzysztof Sztwiertnia Assoc. Prof., Institute of Metallurgy and Materials Science, Polish Academy of Sciences, ul. Reymonta 25, 30-059 Krakow, Poland., Tel.: +48 12 637 4200, Fax: +48 12 637 2192. E-mail: nmsztwie@imim-pan.krakow.pl

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Received: 2007-01-30

Accepted: 2007-10-24

Published Online: 2013-03-01

Published in Print: 2008-02-01

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https://doi.org/10.3139/146.101616

Keywords for this article

Copper alloys; Silver; Recrystallization; Nucleation; Textures