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The role of stacking faults and twin boundaries in grain refinement of a Cu–Zn alloy processed by high-pressure torsion

The role of stacking faults and twin boundaries in grain refinement of a Cu–Zn alloy processed by high-pressure torsion
The role of stacking faults and twin boundaries in grain refinement of a Cu–Zn alloy processed by high-pressure torsion
A recent model developed to predict the smallest grain sizes obtainable by severe plastic deformation has worked well for materials with medium to high stacking fault energies (SFEs) but not for those with low SFEs. To probe this issue, experiments were conducted using a Cu–30 wt.% Zn alloy with a very low SFE of 7 mJ/m2 as the model material. High-pressure torsion was used as the grain refinement technique. The results indicate that stacking faults and twin boundaries play a key role in the grain refinement process such that the smallest achievable grain size is determined by the highest stacking fault and twin density that the system is able to produce. An amorphization of grain boundaries was also observed in the final structure. These observations are very different from those reported for materials having medium to high SFEs and they confirm the operation of a different grain refinement mechanism.
grain refinement, stacking fault energy, twinning, severe plastic deformation, transmission electron microscopy
0921-5093
4959-4966
Wang, Y.B.
30d7b540-dc88-4382-867a-28d0354a8495
Liao, X.Z..
930882c1-2f92-4492-a382-823b7cbc68c5
Zhao, Y.H.
4fea315b-8c7d-4bb1-badc-236b309ef228
Lavernia, E.J.
6a721d94-e1ad-4921-a656-ac0e7c625bd1
Ringer, S.P.
2b986d4b-e93c-4801-9a1b-b16b39c30242
Horita, Z.
84a80017-cbaf-4713-8346-6f69ac7ea63e
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Zhu,, Y.T.
1d9570c9-6ad9-4947-89d0-21d8ecc49229
Wang, Y.B.
30d7b540-dc88-4382-867a-28d0354a8495
Liao, X.Z..
930882c1-2f92-4492-a382-823b7cbc68c5
Zhao, Y.H.
4fea315b-8c7d-4bb1-badc-236b309ef228
Lavernia, E.J.
6a721d94-e1ad-4921-a656-ac0e7c625bd1
Ringer, S.P.
2b986d4b-e93c-4801-9a1b-b16b39c30242
Horita, Z.
84a80017-cbaf-4713-8346-6f69ac7ea63e
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Zhu,, Y.T.
1d9570c9-6ad9-4947-89d0-21d8ecc49229

Wang, Y.B., Liao, X.Z.., Zhao, Y.H., Lavernia, E.J., Ringer, S.P., Horita, Z., Langdon, T.G. and Zhu,, Y.T. (2010) The role of stacking faults and twin boundaries in grain refinement of a Cu–Zn alloy processed by high-pressure torsion. Materials Science and Engineering: A, 527 (18-19), 4959-4966. (doi:10.1016/j.msea.2010.04.036).

Record type: Article

Abstract

A recent model developed to predict the smallest grain sizes obtainable by severe plastic deformation has worked well for materials with medium to high stacking fault energies (SFEs) but not for those with low SFEs. To probe this issue, experiments were conducted using a Cu–30 wt.% Zn alloy with a very low SFE of 7 mJ/m2 as the model material. High-pressure torsion was used as the grain refinement technique. The results indicate that stacking faults and twin boundaries play a key role in the grain refinement process such that the smallest achievable grain size is determined by the highest stacking fault and twin density that the system is able to produce. An amorphization of grain boundaries was also observed in the final structure. These observations are very different from those reported for materials having medium to high SFEs and they confirm the operation of a different grain refinement mechanism.

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More information

Published date: 15 July 2010
Keywords: grain refinement, stacking fault energy, twinning, severe plastic deformation, transmission electron microscopy
Organisations: Engineering Mats & Surface Engineerg Gp

Identifiers

Local EPrints ID: 170677
URI: http://eprints.soton.ac.uk/id/eprint/170677
DOI: doi:10.1016/j.msea.2010.04.036
ISSN: 0921-5093
PURE UUID: a4627132-7446-40a2-b1fa-6b45746d7d44
ORCID for T.G. Langdon: ORCID iD orcid.org/0000-0003-3541-9250

Catalogue record

Date deposited: 10 Jan 2011 11:32
Last modified: 14 Mar 2024 02:47

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Contributors

Author: Y.B. Wang
Author: X.Z.. Liao
Author: Y.H. Zhao
Author: E.J. Lavernia
Author: S.P. Ringer
Author: Z. Horita
Author: T.G. Langdon ORCID iD
Author: Y.T. Zhu,

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