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Individual effect of recrystallisation nucleation sites on texture weakening in a magnesium alloy: Part 2-shear bands

Individual effect of recrystallisation nucleation sites on texture weakening in a magnesium alloy: Part 2-shear bands
Individual effect of recrystallisation nucleation sites on texture weakening in a magnesium alloy: Part 2-shear bands
The entire recrystallisation process of a cold-rolled WE43 Mg alloy containing a high density of shear bands was tracked using a quasi-in-situ electron backscatter diffraction method. The results showed the resultant recrystallised texture arose principally from recrystallisation within shear bands rather than from deformation twins, which made a negligible contribution to the final texture. Only a weakened basal texture with scattered weak texture components was observed after annealing at 450 °C and 490 °C. This is in contrast to the widely reported “Rare Earth” textures, believed to come from shear band recrystallisation. The texture appeared during the nucleation of recrystallised grains and was preserved during subsequent grain growth. Simultaneous occurrence of precipitation on grain and twin boundaries during recrystallisation suppressed any potential preferential grain growth. When annealed at 545 °C, at which temperature both solute drag and Zener pinning were eliminated, a non-basal texture was produced after annealing due to orientated grain growth governed by different grain boundary mobility between basal and off-basal grains.
Magnesium alloy, Recrystallisation, Shear bands, Texture evolution, Zener pinning
1359-6454
399-412
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f
Gao, Junheng
ff08c8df-b051-4ab1-bc03-3b6d68ab9d2e
Ma, Le
1b333b75-1734-4e63-a7d1-ca850ddc78fb
Wynne, Brad
778dc107-b462-47de-8054-cfa0556ea1df
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f
Gao, Junheng
ff08c8df-b051-4ab1-bc03-3b6d68ab9d2e
Ma, Le
1b333b75-1734-4e63-a7d1-ca850ddc78fb
Wynne, Brad
778dc107-b462-47de-8054-cfa0556ea1df

Guan, Dikai, Rainforth, W. Mark, Gao, Junheng, Ma, Le and Wynne, Brad (2018) Individual effect of recrystallisation nucleation sites on texture weakening in a magnesium alloy: Part 2-shear bands. Acta Materialia, 145, 399-412. (doi:10.1016/j.actamat.2017.12.019).

Record type: Article

Abstract

The entire recrystallisation process of a cold-rolled WE43 Mg alloy containing a high density of shear bands was tracked using a quasi-in-situ electron backscatter diffraction method. The results showed the resultant recrystallised texture arose principally from recrystallisation within shear bands rather than from deformation twins, which made a negligible contribution to the final texture. Only a weakened basal texture with scattered weak texture components was observed after annealing at 450 °C and 490 °C. This is in contrast to the widely reported “Rare Earth” textures, believed to come from shear band recrystallisation. The texture appeared during the nucleation of recrystallised grains and was preserved during subsequent grain growth. Simultaneous occurrence of precipitation on grain and twin boundaries during recrystallisation suppressed any potential preferential grain growth. When annealed at 545 °C, at which temperature both solute drag and Zener pinning were eliminated, a non-basal texture was produced after annealing due to orientated grain growth governed by different grain boundary mobility between basal and off-basal grains.

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More information

Published date: 15 February 2018
Keywords: Magnesium alloy, Recrystallisation, Shear bands, Texture evolution, Zener pinning

Identifiers

Local EPrints ID: 475012
URI: http://eprints.soton.ac.uk/id/eprint/475012
DOI: doi:10.1016/j.actamat.2017.12.019
ISSN: 1359-6454
PURE UUID: 878d8547-01ae-47b4-8323-f646992d3c97
ORCID for Dikai Guan: ORCID iD orcid.org/0000-0002-3953-2878

Catalogue record

Date deposited: 08 Mar 2023 17:54
Last modified: 17 Mar 2024 04:17

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Author: Dikai Guan ORCID iD
Author: W. Mark Rainforth
Author: Junheng Gao
Author: Le Ma
Author: Brad Wynne

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