Microstructural characterization of copper coatings in development for application to used nuclear fuel containers

From National Research Council Canada

DOI	Resolve DOI: https://doi.org/10.1016/j.jnucmat.2020.152039
Author	Search for: Li, Weiwei; Search for: Yu, Bosco; Search for: Tam, Jason; Search for: Giallonardo, Jason D.; Search for: Doyle, David; Search for: Poirier, Dominique¹; Search for: Legoux, Jean-Gabriel¹; Search for: Lin, Peter; Search for: Palumbo, Gino; Search for: Erb, Uwe
Affiliation	National Research Council of Canada. Automotive and Surface Transportation
Format	Text, Article
Subject	used nuclear fuel container; copper; electrodeposition; cold spray; grain boundary engineering; electron backscattered diffraction (EBSD)
Abstract	In the design of used nuclear fuel containers for deep geological repositories, copper is considered to be a suitable and long-lived barrier for corrosion resistance. The microstructures of state-of-the-art copper materials used in this application produced through extrusion, a grain boundary engineered electrodeposition technique and cold spraying were studied via electron backscattered diffraction. Desirable microstructural characteristics for localized corrosion resistance of pure copper were compiled from the literature considering grain size, grain boundary character distribution, and crystallographic texture. The subject copper materials were found to have favourable microstructures for localized corrosion resistance, in particular, a high fraction of special grain boundaries, especially Σ3 twins, rendering them suitable for the given application.
Publication date	2020-02-04
Publisher	Elsevier
In	Journal of Nuclear Materials 532, 152039 (15 May 2020).
Language	English
Peer reviewed	Yes
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Record identifier	e18a1486-09ad-4e0c-b93d-dd8ddfee0cda
Record created	2020-07-02
Record modified	2021-09-17

Date modified:: 2024-06-30