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Influence of pressing temperature on microstructure evolution and mechanical behaviour of ultrafine-grained Cu processing by equal-channel angular pressing

Influence of pressing temperature on microstructure evolution and mechanical behaviour of ultrafine-grained Cu processing by equal-channel angular pressing
Influence of pressing temperature on microstructure evolution and mechanical behaviour of ultrafine-grained Cu processing by equal-channel angular pressing
Pure Cu was processed by ECAP at five different temperatures from room temperature (RT) to 523?K. The influence of pressing temperature on microstructure evolution and tensile behavior was investigated in detail. The results show that as the ECAP temperature is increased the grain size and ductility both increase whereas the dislocation density and yield strength decrease. In the case of ECAP processing in the range of RT to 473?K the mechanism governing microstructural refinement is continuous dynamic recrystallization (CDRX), whereas at 523?K the mechanism changes to discontinuous dynamic recrystallization (DDRX). At higher ECAP temperatures, the kinetics of CDRX are retarded leading to a lower fraction of equiaxed grains/high-angle grain boundaries and a higher fraction of dislocation cell structures. At 523?K, DDRX induces a high fraction of equiaxed grains with a very low dislocation density which appears responsible for the observed high tensile ductility. The sample processed at 523?K possessed a good combination of strength and ductility, suggesting that processing by ECAP at elevated temperatures may be a suitable alternative to RT ECAP processing followed by subsequent annealing.
1438-1656
185-194
Wen, Haiming
e3153ed1-19df-4ad1-9ff1-f01afd1472ab
Zhao, Yonghao
a1946ade-15b3-409a-9f81-93919b91065d
Topping, Troy D.
96ddc9bd-0f5b-449a-ac72-b6698bb0de8a
Ashford, Dustin
8ddac0e3-7e6f-4fb5-bd70-b7b92b7b8fd8
Figueiredo, Roberto B.
2e0060b8-6368-4d87-825a-c3cb90e92145
Xu, Cheng
af526865-aee4-4ef6-8174-def5c38149a2
Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Lavernia, Enrique J.
98b70109-1a3f-4824-b3f4-ba76b66c5d04
Wen, Haiming
e3153ed1-19df-4ad1-9ff1-f01afd1472ab
Zhao, Yonghao
a1946ade-15b3-409a-9f81-93919b91065d
Topping, Troy D.
96ddc9bd-0f5b-449a-ac72-b6698bb0de8a
Ashford, Dustin
8ddac0e3-7e6f-4fb5-bd70-b7b92b7b8fd8
Figueiredo, Roberto B.
2e0060b8-6368-4d87-825a-c3cb90e92145
Xu, Cheng
af526865-aee4-4ef6-8174-def5c38149a2
Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Lavernia, Enrique J.
98b70109-1a3f-4824-b3f4-ba76b66c5d04

Wen, Haiming, Zhao, Yonghao, Topping, Troy D., Ashford, Dustin, Figueiredo, Roberto B., Xu, Cheng, Langdon, Terence G. and Lavernia, Enrique J. (2012) Influence of pressing temperature on microstructure evolution and mechanical behaviour of ultrafine-grained Cu processing by equal-channel angular pressing. Advanced Engineering Materials, 14 (3), 185-194. (doi:10.1002/adem.201100080).

Record type: Article

Abstract

Pure Cu was processed by ECAP at five different temperatures from room temperature (RT) to 523?K. The influence of pressing temperature on microstructure evolution and tensile behavior was investigated in detail. The results show that as the ECAP temperature is increased the grain size and ductility both increase whereas the dislocation density and yield strength decrease. In the case of ECAP processing in the range of RT to 473?K the mechanism governing microstructural refinement is continuous dynamic recrystallization (CDRX), whereas at 523?K the mechanism changes to discontinuous dynamic recrystallization (DDRX). At higher ECAP temperatures, the kinetics of CDRX are retarded leading to a lower fraction of equiaxed grains/high-angle grain boundaries and a higher fraction of dislocation cell structures. At 523?K, DDRX induces a high fraction of equiaxed grains with a very low dislocation density which appears responsible for the observed high tensile ductility. The sample processed at 523?K possessed a good combination of strength and ductility, suggesting that processing by ECAP at elevated temperatures may be a suitable alternative to RT ECAP processing followed by subsequent annealing.

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More information

e-pub ahead of print date: 13 October 2011
Published date: March 2012
Organisations: Engineering Mats & Surface Engineerg Gp

Identifiers

Local EPrints ID: 340457
URI: http://eprints.soton.ac.uk/id/eprint/340457
DOI: doi:10.1002/adem.201100080
ISSN: 1438-1656
PURE UUID: 6437994d-a294-4197-b8ff-1e0a90e8f243
ORCID for Terence G. Langdon: ORCID iD orcid.org/0000-0003-3541-9250

Catalogue record

Date deposited: 22 Jun 2012 08:51
Last modified: 15 Mar 2024 03:13

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Contributors

Author: Haiming Wen
Author: Yonghao Zhao
Author: Troy D. Topping
Author: Dustin Ashford
Author: Roberto B. Figueiredo
Author: Cheng Xu
Author: Terence G. Langdon ORCID iD
Author: Enrique J. Lavernia

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