Abstract
An anomalous oxide scale formed on Fe–Cr alloy interconnects was investigated under operation conditions for solid oxide fuel cells (SOFCs). A dilute CH 4 – H 2 O was flowed one side and air was flowed the other side under constant current flow ( 0.3 A cm - 2 ) . The Pt-mesh/alloy interface resistance in CH 4 – H 2 O increases with reaction time in a parabolic relationship. The diffusion controlled mechanism was proposed for the Pt-mesh/alloy interfaces with “normal” oxide scale. An “anomalous” thick oxide scale was found near the outer of glass/alloy interfaces, which was exposed to air. The thick oxide scale was composed of Fe-oxide in the outer layer and Cr-oxide in the inner layer (above ± 50 μ m thick from the original level) with SiO 2 and Al 2 O 3 inner oxides. The microstructures and elemental distribution of the anomalous thick oxides were investigated. A possible formation mechanism of the anomalous oxide scale was discussed by considering the reaction with glass components.
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