Microstructural evolution of nanotwinned Al-Zr alloy with significant 9R phase

N. A. Richter; Y. F. Zhang; D. Y. Xie; R. Su; Q. Li; S. Xue; T. Niu; J. Wang; H. Wang; X. Zhang

doi:10.1080/21663831.2020.1840451

Materials Research Letters (Feb 2021)

Microstructural evolution of nanotwinned Al-Zr alloy with significant 9R phase

N. A. Richter,
Y. F. Zhang,
D. Y. Xie,
R. Su,
Q. Li,
S. Xue,
T. Niu,
J. Wang,
H. Wang,
X. Zhang

Affiliations

N. A. Richter: Purdue University
Y. F. Zhang: Purdue University
D. Y. Xie: University of Nebraska-Lincoln
R. Su: Purdue University
Q. Li: Purdue University
S. Xue: Purdue University
T. Niu: Purdue University
J. Wang: University of Nebraska-Lincoln
H. Wang: Purdue University
X. Zhang: Purdue University

DOI: https://doi.org/10.1080/21663831.2020.1840451
Journal volume & issue: Vol. 9, no. 2
pp. 91 – 98

Abstract

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Aluminum (Al) alloys have a multitude of applications, notably in the automotive, aerospace and coating industries, yet they exhibit significantly lower mechanical strength than conventional steels. Nanotwins drastically improve mechanical strength while retaining ductility. However, the high SFE of Al largely prevents twinning. Here, we synthesize Al-Zr alloy films containing an abundance of incoherent twin boundaries and 9R phases. These alloys exhibit an extended solid solubility of Zr, retaining a columnar nanotwinned structure across all compositions. These films reach a hardness up to 4.2 GPa with 10 at% Zr and demonstrate the capacity for producing strong Al alloys with nanotwins.

Published in Materials Research Letters

ISSN: 2166-3831 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.tandfonline.com/journals/tmrl

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