Microstructural evolution of cryomilled Ti/Al mixture during high-pressure torsion
Microstructural evolution of cryomilled Ti/Al mixture during high-pressure torsion
To provide insight into the influence of the length scale on the kinetics of phase evolution during severe plastic deformation, we studied the microstructure evolution of cryomilled Al and Ti mixture, which is further subjected to high-pressure torsion (HPT). The cryomilled microstructure consisted of elemental Al and Ti, and the subsequent HPT deformation at ambient temperature led to the solid state formation of Al-rich intermetallics. X-ray diffraction peaks originating from TiAl2 and TiAl3 were observed after one revolution of HPT, suggesting a shear strain-assisted formation of the intermetallics. A high resolution transmission electron microscope confirmed the formation of TiAl2 following HPT for one revolution. Further HPT straining led to microstructure refinement and a mixing of the Ti and Al, as well as of any phases formed initially. The solid state formation of the intermetallics and the overall evolution of the microstructure are discussed based on the generation of a high density of lattice defects that evolve under the strain conditions present during HPT
578-585
Bahmanpour, H.
244a3ad6-0e4d-4274-8def-a0ad4884644f
Sun, Y.
f9a339ca-9e03-4220-8df6-0c7ecf47c06c
Hu, T.
9487801b-fb28-47e3-926a-fa5ad9e160f5
Zhang, D.
1c04f0f4-c07c-4671-8fd0-fa07a685fea2
Wongsa-Ngam, J.
15f9bb01-4ec9-4c99-9648-bf77f92864d1
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Lavernia, E.J.
6a721d94-e1ad-4921-a656-ac0e7c625bd1
2014
Bahmanpour, H.
244a3ad6-0e4d-4274-8def-a0ad4884644f
Sun, Y.
f9a339ca-9e03-4220-8df6-0c7ecf47c06c
Hu, T.
9487801b-fb28-47e3-926a-fa5ad9e160f5
Zhang, D.
1c04f0f4-c07c-4671-8fd0-fa07a685fea2
Wongsa-Ngam, J.
15f9bb01-4ec9-4c99-9648-bf77f92864d1
Langdon, T.G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Lavernia, E.J.
6a721d94-e1ad-4921-a656-ac0e7c625bd1
Bahmanpour, H., Sun, Y., Hu, T., Zhang, D., Wongsa-Ngam, J., Langdon, T.G. and Lavernia, E.J.
(2014)
Microstructural evolution of cryomilled Ti/Al mixture during high-pressure torsion.
Journal of Materials Research, 29, .
(doi:10.1557/jmr.2014.18).
Abstract
To provide insight into the influence of the length scale on the kinetics of phase evolution during severe plastic deformation, we studied the microstructure evolution of cryomilled Al and Ti mixture, which is further subjected to high-pressure torsion (HPT). The cryomilled microstructure consisted of elemental Al and Ti, and the subsequent HPT deformation at ambient temperature led to the solid state formation of Al-rich intermetallics. X-ray diffraction peaks originating from TiAl2 and TiAl3 were observed after one revolution of HPT, suggesting a shear strain-assisted formation of the intermetallics. A high resolution transmission electron microscope confirmed the formation of TiAl2 following HPT for one revolution. Further HPT straining led to microstructure refinement and a mixing of the Ti and Al, as well as of any phases formed initially. The solid state formation of the intermetallics and the overall evolution of the microstructure are discussed based on the generation of a high density of lattice defects that evolve under the strain conditions present during HPT
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Published date: 2014
Organisations:
Engineering Mats & Surface Engineerg Gp
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Local EPrints ID: 364439
URI: http://eprints.soton.ac.uk/id/eprint/364439
PURE UUID: 608af949-aea5-4e3f-9f34-2fc968121c07
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Date deposited: 28 Apr 2014 12:58
Last modified: 15 Mar 2024 03:13
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Author:
H. Bahmanpour
Author:
Y. Sun
Author:
T. Hu
Author:
D. Zhang
Author:
J. Wongsa-Ngam
Author:
E.J. Lavernia
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