The deformation and work hardening behaviour of a SPD processed Al-5Cu alloy

An Al-5 wt.% Cu alloy supersaturated with Cu in solid solution was subjected to equal channel angular pressing (ECAP). The microstructural evolution was systematically investigated by backscattered electron (BSE) imaging, electron backscatter diffraction (EBSD) and transmission electron microscopy (...

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Bibliographic Details
Published in:Journal of alloys and compounds 2017-03, Vol.697, p.239-248
Main Authors: Jia, Hailong, Bjørge, Ruben, Marthinsen, Knut, Li, Yanjun
Format: Article
Language:English
Subjects:
Alloys
Aluminium alloy
Aluminum base alloys
Bimodal grain structure
Coarsening
Copper
Copper base alloys
Deformation
Deformation mechanisms
Diffraction
ECAP
Electron backscatter diffraction
Elongation
Equal channel angular pressing
Evolution
Grain structure
Microstructure
Solution strengthening
Tensile properties
Tensile strength
Transmission electron microscopy
Ultimate tensile strength
Work hardening
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Description
Summary:An Al-5 wt.% Cu alloy supersaturated with Cu in solid solution was subjected to equal channel angular pressing (ECAP). The microstructural evolution was systematically investigated by backscattered electron (BSE) imaging, electron backscatter diffraction (EBSD) and transmission electron microscopy (TEM). It is revealed that a bimodal grain structure composed of coarse micron-sized grains and submicron-sized grains was developed after four passes of ECAP. Tensile testing showed that a high ultimate tensile strength of ∼500 MPa, a high elongation to failure of ∼28% and a uniform elongation of ∼5% were achieved simultaneously. The deformation behaviour and the grain structure evolution during ECAP, the strengthening mechanisms of the as-deformed material, and especially, the role played by a high content of Cu have been discussed. •After four passes of ECAP, a bimodal grain structure can be achieved.•High yield strength is a combination of different strengthening mechanisms.•The high solute content and the bimodal structure lead to improved ductility.•The present work suggests a new strategy for designing UFG metal alloys.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2016.11.353