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Mechanisms of Al2O3 and Cr2O3 formation during FeCrAl alloy Oxidation: A First-Principles study

Junjun Wang, Kangkai Yan, Weijiu Huang, Zhibin Lu

2023Applied Surface Science27 citationsDOIOpen Access PDF

Abstract

FeCrAl alloys are the best candidates for nuclear fuel cladding materials due to their excellent corrosion resistance and high-temperature oxidation resistance. However, the oxidation mechanisms of them have not been fully explained. In this study, we investigate the oxygen adsorption on the surface of FeCrAl alloys using density functional theory. Our results reveal that Cr are prone to interact with O. Furthermore, an increasing number of Cr atoms in the adsorption configuration leads to a higher absolute value of the adsorption energy, especially for three Cr (-4.48 eV). To gain further insights, we conduct an analysis of their charge and orbital interactions. We find that Al atoms transfer the most charge to O atoms, resulting in the most stable bonding. This finding explains the experimental phenomenon where Cr 2 O 3 is primarily observed at low temperatures or in the initial oxidation stage, while Al 2 O 3 is observed at high temperatures during prolonged oxidation. This study highlights the variations in the behavior of metal atoms during their interaction with oxygen at atomic level. These findings contribute to the understanding of FeCrAl alloys’ exceptional oxidation resistance. Moreover, this research serves as a valuable scholarly reference for the advancement of FeCrAl alloys for their oxidization resistance.

Topics & Concepts

AdsorptionAlloyCladding (metalworking)CorrosionMaterials scienceMetalOxygenChemical physicsDensity functional theoryMetallurgyThermodynamicsChemical engineeringPhysical chemistryChemistryComputational chemistryPhysicsOrganic chemistryEngineeringNuclear Materials and PropertiesNuclear reactor physics and engineeringThermal and Kinetic Analysis
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