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An investigation of hydrogen storage in a magnesium-based alloy processed by equal-channel angular pressing

An investigation of hydrogen storage in a magnesium-based alloy processed by equal-channel angular pressing
An investigation of hydrogen storage in a magnesium-based alloy processed by equal-channel angular pressing
Equal-Channel Angular Pressing (ECAP) can be successfully used to process Mg and Mg-based hydrides to produce bulk samples with enhanced hydrogen sorption properties. The primary advantages associated with ECAP processing are the shorter processing time, lower cost and the production of safer and more air-resistant bulk material by comparison with powders produced by high-energy ball milling. ECAP can produce special features for hydrogen absorption such as preferential textures, an increased density of defects and submicrometer grain sizes. In this research, ECAP was used to process a commercial AZ31 extruded alloy in order to evaluate its use as a hydrogen storage material. The ECAP was conducted under conditions of temperature and number of passes in order to avoid grain growth. Additional experiments were conducted on commercial coarse-grained magnesium to evaluate the effect of sample thickness on the sorption properties. The ECAP sample was evaluated in two different orientations and it is shown that better hydrogen properties are related to a refined microstructure allied to the (0001) texture.
equal-channel pressing, hydrogen storage, magnesium alloys, severe plastic deformation, ultrafine grains
0360-3199
8306-8312
Jorge, A.M.
23480eba-aff7-4e93-a7e1-4bdb943755cb
Prokofiev, E.
933930c8-c0a9-4322-92bf-512037ab116c
de Lima, G.F.
063a1c48-e4d6-4956-a48b-f2b79b21fe88
Rauch, E.
2b6cc8dd-39fe-408e-9644-e8c195de40cf
Veron, M.
ebfe4155-f697-4991-9654-8aef338758c9
Botta, W.J.
36cb2d92-3dd0-4535-b3b7-a1ec369d4680
Kawasaki, M.
d0ce18b9-8403-4db2-9cb2-3a6165f288a6
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Jorge, A.M.
23480eba-aff7-4e93-a7e1-4bdb943755cb
Prokofiev, E.
933930c8-c0a9-4322-92bf-512037ab116c
de Lima, G.F.
063a1c48-e4d6-4956-a48b-f2b79b21fe88
Rauch, E.
2b6cc8dd-39fe-408e-9644-e8c195de40cf
Veron, M.
ebfe4155-f697-4991-9654-8aef338758c9
Botta, W.J.
36cb2d92-3dd0-4535-b3b7-a1ec369d4680
Kawasaki, M.
d0ce18b9-8403-4db2-9cb2-3a6165f288a6
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86

Jorge, A.M., Prokofiev, E., de Lima, G.F., Rauch, E., Veron, M., Botta, W.J., Kawasaki, M. and Langdon, T.G. (2013) An investigation of hydrogen storage in a magnesium-based alloy processed by equal-channel angular pressing. International Journal of Hydrogen Energy, 38 (20), 8306-8312. (doi:10.1016/j.ijhydene.2013.03.158).

Record type: Article

Abstract

Equal-Channel Angular Pressing (ECAP) can be successfully used to process Mg and Mg-based hydrides to produce bulk samples with enhanced hydrogen sorption properties. The primary advantages associated with ECAP processing are the shorter processing time, lower cost and the production of safer and more air-resistant bulk material by comparison with powders produced by high-energy ball milling. ECAP can produce special features for hydrogen absorption such as preferential textures, an increased density of defects and submicrometer grain sizes. In this research, ECAP was used to process a commercial AZ31 extruded alloy in order to evaluate its use as a hydrogen storage material. The ECAP was conducted under conditions of temperature and number of passes in order to avoid grain growth. Additional experiments were conducted on commercial coarse-grained magnesium to evaluate the effect of sample thickness on the sorption properties. The ECAP sample was evaluated in two different orientations and it is shown that better hydrogen properties are related to a refined microstructure allied to the (0001) texture.

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More information

Published date: July 2013
Keywords: equal-channel pressing, hydrogen storage, magnesium alloys, severe plastic deformation, ultrafine grains
Organisations: Engineering Mats & Surface Engineerg Gp

Identifiers

Local EPrints ID: 359476
URI: http://eprints.soton.ac.uk/id/eprint/359476
DOI: doi:10.1016/j.ijhydene.2013.03.158
ISSN: 0360-3199
PURE UUID: 0896164c-bf87-447e-8abe-540c30d0300c
ORCID for T.G. Langdon: ORCID iD orcid.org/0000-0003-3541-9250

Catalogue record

Date deposited: 04 Nov 2013 14:33
Last modified: 15 Mar 2024 03:13

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Contributors

Author: A.M. Jorge
Author: E. Prokofiev
Author: G.F. de Lima
Author: E. Rauch
Author: M. Veron
Author: W.J. Botta
Author: M. Kawasaki
Author: T.G. Langdon ORCID iD

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