How the crystallography and nanoscale chemistry of the metal/oxide interface develops during the aqueous oxidation of zirconium cladding alloys

Ni, N; Hudson, D; Wei, J; Wang, P; Lozano-Perez, S; Smith, G; Sykes, J; Yardley, S; Moore, K; Lyon, S; Cottis, R; Preuss, M; Grovenor, C

Journal article

How the crystallography and nanoscale chemistry of the metal/oxide interface develops during the aqueous oxidation of zirconium cladding alloys

Abstract:: Aqueous corrosion and hydrogenation have become major limiting factors to the use of zirconium alloys as fuel cladding and assembly components in water-cooled nuclear reactors. The metal-oxide interface has been a particular focus of previous research, but there is still no clear understanding of what is present at the interface at different stages of the complex oxidation process. We report here a systematic investigation using state-of-the-art instrumentation on the interfaces in several zirconium alloys corroded for different times. We have shown that thin intermediate oxide layers with compositions close to ZrO can be observed in almost all the pre-transition samples studied, and that this layer thickens during the pre-transition stage. Just before the kinetic transition, a large variation in the suboxide width was detected, suggesting that the kinetic transition is an extremely local process. After transition the suboxide was generally absent. In the suboxide locations different structures, including an unidentified phase, were found. The oxygen-saturated (∼30 at.% O) metal regions found beneath the oxide are thickest in the (late) pre-transition samples and significantly thinner in the post-transition samples. We suggest that the suboxide cannot by itself act as a protective layer and conclude that it is the development of interlinked porosity down to the metal-oxide interface that is the reason for the transition in oxidation kinetics. © 2012 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Publication status:: Published

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APA Style

Ni, N., Hudson, D., Wei, J., Wang, P., Lozano-Perez, S., Smith, G., Sykes, J., Yardley, S., Moore, K., Lyon, S., Cottis, R., Preuss, M., & Grovenor, C. (2012). How the crystallography and nanoscale chemistry of the metal/oxide interface develops during the aqueous oxidation of zirconium cladding alloys. ACTA MATERIALIA, 60(20), 7132–7149.

MLA Style

Ni, N, et al. “How the Crystallography and Nanoscale Chemistry of the Metal/Oxide Interface Develops during the Aqueous Oxidation of Zirconium Cladding Alloys.” ACTA MATERIALIA, vol. 60, no. 20, 2012, pp. 7132–49.

Chicago Style

Ni, N, D Hudson, J Wei, et al. 2012. “How the Crystallography and Nanoscale Chemistry of the Metal/Oxide Interface Develops during the Aqueous Oxidation of Zirconium Cladding Alloys.” ACTA MATERIALIA 60 (20): 7132–49.
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