The effect of heavy deformation on the precipitation in an Al-1.3Cu-1.0Mg-0.4Si wt.% alloy

Elisabeth Thronsen; Calin D. Marioara; Jonas K. Sunde; Kazuhiro Minakuchi; Tetsuya Katsumi; Iven Erga; Sigmund J. Andersen; Jesper Friis; Knut Marthinsen; Kenji Matsuda; Randi Holmestad

Materials & Design (Jan 2020)

The effect of heavy deformation on the precipitation in an Al-1.3Cu-1.0Mg-0.4Si wt.% alloy

Elisabeth Thronsen,
Calin D. Marioara,
Jonas K. Sunde,
Kazuhiro Minakuchi,
Tetsuya Katsumi,
Iven Erga,
Sigmund J. Andersen,
Jesper Friis,
Knut Marthinsen,
Kenji Matsuda,
Randi Holmestad

Affiliations

Elisabeth Thronsen: Department of Physics, Norwegian University of Science and Technology, Høgskoleringen 5, N-7491, Trondheim, Norway; Corresponding author.
Calin D. Marioara: Materials and Nanotechnology Department, SINTEF Industry, Høgskoleringen 5, Trondheim, N-7465, Norway
Jonas K. Sunde: Department of Physics, Norwegian University of Science and Technology, Høgskoleringen 5, N-7491, Trondheim, Norway
Kazuhiro Minakuchi: Machinery and Engineering Group, YKK Corporation, 200, Yoshida, Kurobe, Toyama, 938-8601, Japan
Tetsuya Katsumi: Machinery and Engineering Group, YKK Corporation, 200, Yoshida, Kurobe, Toyama, 938-8601, Japan
Iven Erga: Department of Materials Science and Engineering, Norwegian University of Science and Technology, Alfred Getz Vei 2, N-7491, Trondheim, Norway
Sigmund J. Andersen: Materials and Nanotechnology Department, SINTEF Industry, Høgskoleringen 5, Trondheim, N-7465, Norway
Jesper Friis: Materials and Nanotechnology Department, SINTEF Industry, Høgskoleringen 5, Trondheim, N-7465, Norway
Knut Marthinsen: Department of Materials Science and Engineering, Norwegian University of Science and Technology, Alfred Getz Vei 2, N-7491, Trondheim, Norway
Kenji Matsuda: Graduate School of Science and Engineering for Research, University of Toyama, Toyama, 930-8555, Japan
Randi Holmestad: Department of Physics, Norwegian University of Science and Technology, Høgskoleringen 5, N-7491, Trondheim, Norway

Journal volume & issue: Vol. 186

Abstract

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This work has investigated the effect of the combination of natural ageing and 80% pre-deformation after solution heat treatment on precipitation during subsequent artificial ageing in an Al-1.3Cu-1.0Mg-0.4Si wt.% alloy. It was found that a combined use of atomic resolution aberration corrected high-angle annular dark-field scanning transmission electron microscopy and scanning precession electron diffraction enabled a detailed characterisation of precipitates in heavy pre-deformed materials. The dominant phase in the undeformed condition was the L phase. L was also found to be nucleated in the undistorted regions of the Al matrix in the pre-deformed conditions. Two phases with high aspect ratios were nucleated on dislocations: The C phase and a previously reported phase, which we named here the ‘E phase’. The crystal structure of E was solved experimentally as monoclinic with core composition Mg6Al2Si2Cu4, supported by density functional theory calculations. It was determined that the order of pre-deformation and natural ageing had an influence on the relative fractions of the aforementioned phases formed during artificial ageing. An increased fraction of C+E relative to L was found in the condition where the pre-deformation was applied after natural ageing as compared to the condition where the pre-deformation was applied before natural ageing. Keywords: Al-Mg-Si-Cu alloys, Natural ageing, Pre-deformation, Precipitation, Scanning precession electron diffraction, High angle annular dark-field scanning transmission electron microscopy

Published in Materials & Design

ISSN: 0264-1275 (Print); 1873-4197 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.journals.elsevier.com/materials-and-design

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