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- Title
Self-assembling of atomic vacancies at an oxide/intermetallic alloy interface.
- Authors
Maurice, Vincent; Despert, Guillaume; Zanna, Sandrine; Bacos, Marie-Pierre; Marcus, Philippe
- Abstract
Oxide layers grown on the surface provide an effective way of protecting metallic materials against corrosion for sustainable use in a broad range of applications. However, the growth of cavities at the metal/oxide interface weakens the adherence of the protective layer and can promote its spallation under service conditions, as observed for alumina layers formed by selective oxidation of aluminide intermetallic alloys used in high-temperature applications. Here we show that direct atomic-scale observations of the interface between an ultrathin protective oxide layer (alumina) grown on an intermetallic titanium aluminide substrate (TiAl) can be performed with techniques sensitive to the topmost atomic layers at the surface. Nanocavities resulting from the self-assembling of atomic vacancies injected at the interface by the growth mechanism of the protective oxide are observed for the first time, bringing new insight into the understanding of the fate of injected cavities in oxidation processes.
- Subjects
ALLOYS; METALLIC composites; INTERFACES (Physical sciences); SURFACE chemistry; METALLIC oxides; OXIDATION
- Publication
Nature Materials, 2004, Vol 3, Issue 10, p687
- ISSN
1476-1122
- Publication type
Article
- DOI
10.1038/nmat1203