Abstract
Oxide scales formed on an Fe–Cr alloy in fuel gas atmospheres (H 2–H 2O and CH 4–H 2O) were investigated by secondary ion mass spectrometry (SIMS). From surface to oxide scale/alloy interfaces, Mn–Fe–(Cr) spinel, Cr 2O 3, SiO 2, and Al 2O 3 inner oxides were identified by SEM and SIMS depth profiles. The elemental distribution analysis suggests that the grain boundary diffusion in the alloy plays an important role on growth of oxide scales. The growth of oxide scale followed the parabolic relationship between scale thickness and annealing duration time. The estimated growth rates of oxide scales are in an order of 10 −14 cm 2 s −1 at 1073 K. Oxygen diffusion through the oxide scales were evaluated by 18O diffusion with SIMS analysis. The diffusion coefficients of 18O in the oxide scales were 3.1–5.4×10 −12 cm 2 s −1 at 1073 K, which were larger than the obtained growth rates of the oxide scales.
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