Über die Beeinflussung der Oxydationsgeschwindigkeit des Eisens durch Behandlung mit Lithiumoxyddampf

Brauns, E.; Rahmel, A.

doi:10.1002/maco.19560070804

Cited by 4 publications

(1 citation statement)

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“…In fact FeO, in spite of the large deviations from stoichiometry and the complex nature of its defects, is essentially a p -t y p e semiconductor, so that the presence of copper, most p r o b a b l y in the form of Cu + ions owing to the low oxygen activity, should produce a decrease of the vacancy concentration and hence slow down the diffusion of iron. Actually large additions would be thought necessary for this effect due to the high concentration of native defects in FeO as compared to similar oxides like NiO or CoO (18) : observations on the influence of Li20 on the rate of formation of FeO (19) and on the rate of oxidation of Fe-Cr alloys (20) are in substantial agreement with this prediction, even if the effect is small. In addition, the presence of foreign ions in magnetite is known to produce a strong decrease of the iron mobility (21).…”

Section: Discussionmentioning

confidence: 74%

Oxidation Behavior of Two‐Phase Alloy Fe‐44 w/o Cu

Gesmundo¹,

Nanni²,

Whittle³

1980

J. Electrochem. Soc.

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The oxidation of a two‐phase iron‐copper alloy has been studied as an example of the behavior of multiphase systems with simple compositions of the component single phases. The alloy oxidizes more slowly than either of the pure metals, particularly iron, and the scale contains both components, copper being particularly accumulated close to the scale‐gas interface. A deep region of internal oxidation is also present, where the iron‐rich particles have been converted into normalFeO . Possible reasons for the observed reduction of the oxidation rate in comparison with pure iron are examined: by means of an approximate calculation based on the theory of the growth of multilayer scales it is concluded that a major fact is the thermodynamic destabilization of the fast growing wustite phase, due to the low iron activity at the alloy‐scale interface. No particular effect of growth stresses, due to the anticipated differences in oxidation rate of the component phases, has been observed. Instead, in agreement with the observation that the scale composition is rather uniform laterally and shows the largest changes perpendicularly to the alloy surface, the two‐phase nature of the alloy does not seem to exert a strong influence on the overall oxidation behavior.

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Section: Discussionmentioning

confidence: 74%