Microstructural homogeneity and superplastic behavior in an aluminum–copper eutectic alloy processed by high-pressure torsion
Microstructural homogeneity and superplastic behavior in an aluminum–copper eutectic alloy processed by high-pressure torsion
An Al–33 % Cu eutectic alloy was processed by high-pressure torsion (HPT) at room temperature under a compressive pressure of 6.0 GPa for different revolutions up to 10 turns. The Vickers microhardness and microstructure were investigated on vertical cross sections of the disks to evaluate the evolution toward homogeneity with increasing numbers of HPT turns. The hardness behavior follows the strain hardening model of materials after HPT processing and the microstructural development confirms that there is essentially a compatibility between hardness and microstructure in the Al–Cu alloy when processing by HPT. The tensile properties were examined at a high temperature of 723 K after 5 and 10 turns of HPT using a series of strain rates from 3.3 × 10-5 to 1.0 × 10-1 s-1. Excellent superplastic ductilities were achieved when testing at strain rates below 1.0 × 10-3 s-1 with a highest elongation of ~1220 % after 10 turns at an initial strain rate of 1.0 × 10-4 s-1. Close inspection showed that the optimal superplastic strain rates are displaced to a faster strain rate with increasing revolutions from 5 to 10 turns. A deformation mechanism map was constructed for a testing temperature of 723 K using a combination of theoretical relationships and earlier experimental data reported for a conventional coarse-grained Al–33 % Cu alloy. Inspection shows that this map is in excellent agreement with the experimental data for the ultrafine-grained Al–33 % Cu alloy after processing by HPT.
6700-6712
Kawasaki, Megumi
944ba471-eb78-46db-bfb7-3f0296d9ef6d
Lee, Han-Joo
dfea332e-c7bd-49d9-b544-c62baab464bf
Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
October 2015
Kawasaki, Megumi
944ba471-eb78-46db-bfb7-3f0296d9ef6d
Lee, Han-Joo
dfea332e-c7bd-49d9-b544-c62baab464bf
Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Kawasaki, Megumi, Lee, Han-Joo and Langdon, Terence G.
(2015)
Microstructural homogeneity and superplastic behavior in an aluminum–copper eutectic alloy processed by high-pressure torsion.
Journal of Materials Science, 50 (20), .
(doi:10.1007/s10853-015-9224-5).
Abstract
An Al–33 % Cu eutectic alloy was processed by high-pressure torsion (HPT) at room temperature under a compressive pressure of 6.0 GPa for different revolutions up to 10 turns. The Vickers microhardness and microstructure were investigated on vertical cross sections of the disks to evaluate the evolution toward homogeneity with increasing numbers of HPT turns. The hardness behavior follows the strain hardening model of materials after HPT processing and the microstructural development confirms that there is essentially a compatibility between hardness and microstructure in the Al–Cu alloy when processing by HPT. The tensile properties were examined at a high temperature of 723 K after 5 and 10 turns of HPT using a series of strain rates from 3.3 × 10-5 to 1.0 × 10-1 s-1. Excellent superplastic ductilities were achieved when testing at strain rates below 1.0 × 10-3 s-1 with a highest elongation of ~1220 % after 10 turns at an initial strain rate of 1.0 × 10-4 s-1. Close inspection showed that the optimal superplastic strain rates are displaced to a faster strain rate with increasing revolutions from 5 to 10 turns. A deformation mechanism map was constructed for a testing temperature of 723 K using a combination of theoretical relationships and earlier experimental data reported for a conventional coarse-grained Al–33 % Cu alloy. Inspection shows that this map is in excellent agreement with the experimental data for the ultrafine-grained Al–33 % Cu alloy after processing by HPT.
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e-pub ahead of print date: 7 July 2015
Published date: October 2015
Organisations:
Engineering Mats & Surface Engineerg Gp
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Local EPrints ID: 382384
URI: http://eprints.soton.ac.uk/id/eprint/382384
ISSN: 0022-2461
PURE UUID: 182d39bc-6332-4304-94ab-39555ae5fc0e
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Date deposited: 27 Oct 2015 10:55
Last modified: 15 Mar 2024 03:14
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Author:
Megumi Kawasaki
Author:
Han-Joo Lee
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