High temperature oxidation of AlCrFe complex metallic alloys

•Oxidation of Al65Cr27Fe8 and Al80Cr15Fe5 was studied in the 600–1080°C temperature range.•Formation of transient alumina scales is obtained up to 900°C.•α-Alumina is formed on Al65Cr27Fe8 at temperatures higher than 1000°C.•Very good oxidation resistance is observed for of Al65Cr27Fe8 up to 1080°C....

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Bibliographic Details
Published in:Corrosion science 2014, Vol.89, p.118-126
Main Authors: Prud’homme, N., Ribot, P., Herinx, M., Gille, P., Bauer, B., de Weerd, M.-C., Barthés-Labrousse, M.-G.
Format: Article
Language:English
Subjects:
A. Aluminium
A. Intermetallics
Applied sciences
B. SEM
B. Weight loss
B. XRD
C. Oxidation
Condensed Matter
Corrosion
Corrosion environments
Exact sciences and technology
Materials Science
Metals. Metallurgy
Physics
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Summary:•Oxidation of Al65Cr27Fe8 and Al80Cr15Fe5 was studied in the 600–1080°C temperature range.•Formation of transient alumina scales is obtained up to 900°C.•α-Alumina is formed on Al65Cr27Fe8 at temperatures higher than 1000°C.•Very good oxidation resistance is observed for of Al65Cr27Fe8 up to 1080°C.•Scale spallation and thermal etching of the alloy surface is observed on Al80Cr15Fe5. Isothermal oxidation of Al65Cr27Fe8 and Al80Cr15Fe5 was studied in the 600–1080°C range. Formation of transient alumina layers is obtained up to 900°C. On Al65Cr27Fe8 transient to α-phase transformations occur when performing oxidation at 1000°C, together with the possible appearance of (Al0.9Cr0.1)2O3. At 1080°C, direct formation of α-alumina is obtained. On Al80Cr15Fe5, spallation of the oxide layer during the cooling stage is observed following oxidation at 800 and 900°C, revealing thermal etching of the underneath alloy surface. At 1050°C the α-Al2O3 scale is directly formed but plastic deformation and recrystallization of the underneath alloy into several intermetallic phases is observed.
ISSN:0010-938X
1879-0496
DOI:10.1016/j.corsci.2014.08.013