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Processing by equal-channel angular pressing: applications to grain boundary engineering

Processing by equal-channel angular pressing: applications to grain boundary engineering
Processing by equal-channel angular pressing: applications to grain boundary engineering
Equal-channel angular pressing (ECAP) is a processing technique in which a sample is pressed through a die constrained within a channel so that an intense strain is imposed without incurring any change in the cross-sectional dimensions of the sample. This procedure may be used to achieve considerable grain refinement in pure metals and metallic alloys with as-pressed grain sizes lying typically within the submicrometer range. Careful experiments reveal only a minor change in the grain size with increasing numbers of passes through an ECAP die but there is a significant change in the distribution of grain boundary misorientations as a function of the total imposed strain. In practice, the microstructure evolves with increasing strain from an array of grains where the boundaries are predominantly in low-angle misorientations to an array of grains where a high fraction (typically ?60%) is in high-angle misorientations. This evolution has a significant effect on the characteristics of the as-pressed materials including the high temperature mechanical properties and the measured rates of diffusion. In addition, the evolution provides an opportunity to use Grain Boundary Engineering in order to optimize the behavior of the material.
0022-2461
909-917
Furukawa, Minoru
1ff823a3-0407-4215-889d-92fb66f8915c
Horita, Zenji
011521b8-3b29-494b-bf3f-346827ddbcce
Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Watanabe, Tadao
58a81e62-00c9-40d9-b6f9-eef238abebc8
Tsurekawa, Sadahiro
c205f595-1711-4250-b32e-b5b2f59c78ff
Furukawa, Minoru
1ff823a3-0407-4215-889d-92fb66f8915c
Horita, Zenji
011521b8-3b29-494b-bf3f-346827ddbcce
Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Watanabe, Tadao
58a81e62-00c9-40d9-b6f9-eef238abebc8
Tsurekawa, Sadahiro
c205f595-1711-4250-b32e-b5b2f59c78ff

Furukawa, Minoru, Horita, Zenji and Langdon, Terence G. , Watanabe, Tadao and Tsurekawa, Sadahiro (eds.) (2005) Processing by equal-channel angular pressing: applications to grain boundary engineering. Journal of Materials Science, 40 (4), 909-917. (doi:10.1007/s10853-005-6509-0).

Record type: Article

Abstract

Equal-channel angular pressing (ECAP) is a processing technique in which a sample is pressed through a die constrained within a channel so that an intense strain is imposed without incurring any change in the cross-sectional dimensions of the sample. This procedure may be used to achieve considerable grain refinement in pure metals and metallic alloys with as-pressed grain sizes lying typically within the submicrometer range. Careful experiments reveal only a minor change in the grain size with increasing numbers of passes through an ECAP die but there is a significant change in the distribution of grain boundary misorientations as a function of the total imposed strain. In practice, the microstructure evolves with increasing strain from an array of grains where the boundaries are predominantly in low-angle misorientations to an array of grains where a high fraction (typically ?60%) is in high-angle misorientations. This evolution has a significant effect on the characteristics of the as-pressed materials including the high temperature mechanical properties and the measured rates of diffusion. In addition, the evolution provides an opportunity to use Grain Boundary Engineering in order to optimize the behavior of the material.

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More information

Published date: 2005
Additional Information: Special Section: Grain Boundary and Interface Engineering
Learn more about Engineering Sciences research

Identifiers

Local EPrints ID: 23818
URI: http://eprints.soton.ac.uk/id/eprint/23818
DOI: doi:10.1007/s10853-005-6509-0
ISSN: 0022-2461
PURE UUID: 5ffe040a-87cd-4df6-a733-18228899f880
ORCID for Terence G. Langdon: ORCID iD orcid.org/0000-0003-3541-9250

Catalogue record

Date deposited: 21 Mar 2006
Last modified: 16 Mar 2024 03:28

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Contributors

Author: Minoru Furukawa
Author: Zenji Horita
Author: Terence G. Langdon ORCID iD
Editor: Tadao Watanabe
Editor: Sadahiro Tsurekawa

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