Adiabatic heating and the saturation of grain refinement during SPD of metals and alloys: experimental assessment and computer modeling
Adiabatic heating and the saturation of grain refinement during SPD of metals and alloys: experimental assessment and computer modeling
Severe plastic deformation methods include equal-channel angular pressing/extrusion, high-pressure torsion, and plane strain machining. These methods are extremely effective in producing bulk microstructure refinement and are generally initiated at a low homologous temperature. The resulting deformation-induced microstructures exhibit progressively refined cellular dislocation structures during the initial stages of straining that give way to refined, equiaxed grain structures at larger strains. Often, grain refinement appears to saturate but frequently coarsening is observed at the largest strains after a minimum in grain size is attained during SPD. Here, we summarize results on grain refinement by these processing methods and provide an analysis that incorporates adiabatic heating to explain the progressive refinement to intermediate strains and that may be followed either by an apparent saturation in grain refinement or by grain coarsening at the largest strains. This analysis is consistent with continuous dynamic recrystallization in the absence of the formation and long-range migration of high-angle boundaries.
4626-4636
Zhilyaev, A.P.
d053e518-1976-4633-8953-e8f34b9b7c44
Swaminathan, S.
5a51e86e-3e2f-4686-b9a9-c7910ce71713
Pshenichnyuk, A.I.
994aec5f-80e5-48e8-a044-48c855cd9eea
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
McNelley, T.R.
86e07e47-8710-46a6-bbe9-b34bcd66383b
July 2013
Zhilyaev, A.P.
d053e518-1976-4633-8953-e8f34b9b7c44
Swaminathan, S.
5a51e86e-3e2f-4686-b9a9-c7910ce71713
Pshenichnyuk, A.I.
994aec5f-80e5-48e8-a044-48c855cd9eea
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
McNelley, T.R.
86e07e47-8710-46a6-bbe9-b34bcd66383b
Zhilyaev, A.P., Swaminathan, S., Pshenichnyuk, A.I., Langdon, T.G. and McNelley, T.R.
(2013)
Adiabatic heating and the saturation of grain refinement during SPD of metals and alloys: experimental assessment and computer modeling.
Journal of Materials Science, 48 (13), .
(doi:10.1007/s10853-013-7254-4).
Abstract
Severe plastic deformation methods include equal-channel angular pressing/extrusion, high-pressure torsion, and plane strain machining. These methods are extremely effective in producing bulk microstructure refinement and are generally initiated at a low homologous temperature. The resulting deformation-induced microstructures exhibit progressively refined cellular dislocation structures during the initial stages of straining that give way to refined, equiaxed grain structures at larger strains. Often, grain refinement appears to saturate but frequently coarsening is observed at the largest strains after a minimum in grain size is attained during SPD. Here, we summarize results on grain refinement by these processing methods and provide an analysis that incorporates adiabatic heating to explain the progressive refinement to intermediate strains and that may be followed either by an apparent saturation in grain refinement or by grain coarsening at the largest strains. This analysis is consistent with continuous dynamic recrystallization in the absence of the formation and long-range migration of high-angle boundaries.
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Published date: July 2013
Organisations:
Engineering Mats & Surface Engineerg Gp
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Local EPrints ID: 351986
URI: http://eprints.soton.ac.uk/id/eprint/351986
ISSN: 0022-2461
PURE UUID: e21bc947-ec27-4da7-837c-c660e48a997a
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Date deposited: 01 May 2013 09:02
Last modified: 15 Mar 2024 03:13
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Author:
A.P. Zhilyaev
Author:
S. Swaminathan
Author:
A.I. Pshenichnyuk
Author:
T.R. McNelley
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