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Twin recrystallization mechanisms and exceptional contribution to texture evolution during annealing in a magnesium alloy

Twin recrystallization mechanisms and exceptional contribution to texture evolution during annealing in a magnesium alloy
Twin recrystallization mechanisms and exceptional contribution to texture evolution during annealing in a magnesium alloy
The formability and mechanical properties of Mg alloys are strongly related to the crystallographic basal texture. Deformation twins form extensively after mechanical processing. Recrystallized grains originating from twins usually randomize the texture and therefore weaken the strong deformed texture. It is crucial to understand different recrystallization mechanisms as a function of twin type and therefore their corresponding contribution to texture modification. This work shows that the recrystallization volume fraction formed within twins has been completely underestimated. Specifically, recrystallized grains originating from double twins make the main contribution to texture modification, which contrasts to the opposite view that has been reported in the past decades. The preferential nucleation site, subsequent grain growth and evolution of recrystallization texture in double twins has been tracked in individual twins through the whole annealing process for the first time. After annealing for 378 min at 490 °C, the volume fraction of total recrystallization was ∼75.7%, while the recrystallized volume fraction originating from double twins and double twin-grain boundary intersections was ∼52.9%, which represents ∼69.9% of the total volume fraction recrystallization. Recrystallization mechanisms related to various twin types, twin variants, twin-twin and twin-grain boundaries intersections are precisely determined. These findings could lead new insight to design new wrought alloys and improve formability of commercial alloys.
Magnesium alloy, Recrystallization, Deformation twin, Texture evolution
1359-6454
132-144
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f
Ma, Le
1b333b75-1734-4e63-a7d1-ca850ddc78fb
Wynne, Brad
778dc107-b462-47de-8054-cfa0556ea1df
Gao, Junheng
ff08c8df-b051-4ab1-bc03-3b6d68ab9d2e
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f
Ma, Le
1b333b75-1734-4e63-a7d1-ca850ddc78fb
Wynne, Brad
778dc107-b462-47de-8054-cfa0556ea1df
Gao, Junheng
ff08c8df-b051-4ab1-bc03-3b6d68ab9d2e

Guan, Dikai, Rainforth, W. Mark, Ma, Le, Wynne, Brad and Gao, Junheng (2017) Twin recrystallization mechanisms and exceptional contribution to texture evolution during annealing in a magnesium alloy. Acta Materialia, 126, 132-144. (doi:10.1016/j.actamat.2016.12.058).

Record type: Article

Abstract

The formability and mechanical properties of Mg alloys are strongly related to the crystallographic basal texture. Deformation twins form extensively after mechanical processing. Recrystallized grains originating from twins usually randomize the texture and therefore weaken the strong deformed texture. It is crucial to understand different recrystallization mechanisms as a function of twin type and therefore their corresponding contribution to texture modification. This work shows that the recrystallization volume fraction formed within twins has been completely underestimated. Specifically, recrystallized grains originating from double twins make the main contribution to texture modification, which contrasts to the opposite view that has been reported in the past decades. The preferential nucleation site, subsequent grain growth and evolution of recrystallization texture in double twins has been tracked in individual twins through the whole annealing process for the first time. After annealing for 378 min at 490 °C, the volume fraction of total recrystallization was ∼75.7%, while the recrystallized volume fraction originating from double twins and double twin-grain boundary intersections was ∼52.9%, which represents ∼69.9% of the total volume fraction recrystallization. Recrystallization mechanisms related to various twin types, twin variants, twin-twin and twin-grain boundaries intersections are precisely determined. These findings could lead new insight to design new wrought alloys and improve formability of commercial alloys.

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More information

Published date: March 2017
Keywords: Magnesium alloy, Recrystallization, Deformation twin, Texture evolution

Identifiers

Local EPrints ID: 475008
URI: http://eprints.soton.ac.uk/id/eprint/475008
ISSN: 1359-6454
PURE UUID: 46b63b64-278a-4d55-b9f8-a20b8a68c6af
ORCID for Dikai Guan: ORCID iD orcid.org/0000-0002-3953-2878

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

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Contributors

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

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