Article ID Journal Published Year Pages File Type
1469908 Corrosion Science 2012 7 Pages PDF
Abstract

The chromia-forming nickel-based alloy Haynes® HR-120 was oxidised with and without Na2SO4 deposit in a CO/H2/CO2 (45/45/10%vol.) simulated process atmosphere at 900 °C for 96 h. During the first hours of oxidation, samples covered by sodium sulphate exhibit higher oxidation rate than non-covered ones. However, after 24 h both sulphate-covered and uncovered specimens follow the same linear kinetics. In this very low oxygen partial pressure environment (10−18 atm), the presence of Na2SO4 promotes the growth of localized iron-rich oxide nodules leading to the observed accelerated oxidation. The development of these nodules is discussed to be the result of the chromia dissolution induced by a basic fluxing mechanism. As soon as the salt is evaporated, slower kinetics are observed and the nodules disappear. In these specific conditions, the oxidation could be considered as a self-healing process.

► We study the influence of alkaline salts on 38Fe–34Ni–25Cr alloy in a weakly oxidising environment. ► During salt evaporation, catastrophic oxidation occurs. ► The development of iron oxide is linked with a fluxing mechanism of the chromia. ► The formed oxide layer prevents subsequent oxidation. ► Under our experimental condition, the alloy presents self-healing properties.

Related Topics
Physical Sciences and Engineering Materials Science Ceramics and Composites
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