The role of the metal/oxide interface in the growth of passive films in aqueous environments

A mechanistic methodology has been developed to understand the role of the metal/scale interface in the growth of scales at high temperatures. Specifically, cation vacancies arriving at the metal/scale interface are annihilated by the climb of misfit and misorientation interfacial dislocations. If t...

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Veröffentlicht in:	Corrosion science 2005, Vol.47 (1), p.247-256
Hauptverfasser:	Pieraggi, Bernard, MacDougall, Barry, Rapp, Robert A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anodic film Applied sciences Cation diffusion Corrosion Corrosion environments Corrosion mechanisms Exact sciences and technology Film growth Metals. Metallurgy Vacancy annihilation
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container_title	Corrosion science
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creator	Pieraggi, Bernard MacDougall, Barry Rapp, Robert A.
description	A mechanistic methodology has been developed to understand the role of the metal/scale interface in the growth of scales at high temperatures. Specifically, cation vacancies arriving at the metal/scale interface are annihilated by the climb of misfit and misorientation interfacial dislocations. If this mechanism is blocked, e.g. by the tangling of dislocations within the metal, then cation diffusion cannot continue to support the growth of an adherent oxide. To the extent that adherent, crystalline and epitaxial passive or anodic films formed in aqueous environments also grow by cation diffusion over vacancies, the same mechanisms must apply. The segregation of large reactive element cations to the metal/scale interface and their importance in enhancing scale adherence by blocking vacancy annihilation, also constitute concepts that might find relevance for passive films in aqueous solutions.
doi_str_mv	10.1016/j.corsci.2004.03.004
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subjects	Anodic film Applied sciences Cation diffusion Corrosion Corrosion environments Corrosion mechanisms Exact sciences and technology Film growth Metals. Metallurgy Vacancy annihilation
title	The role of the metal/oxide interface in the growth of passive films in aqueous environments
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