Résumé | High-resolution SIMS and TEM have been used to evaluate growth processes and interfacial segregation occurring in -Al2O3 scales grown at 1200°C on -NiAl containing zirconium or yttrium.18O/SIMS shows that the extent of aluminum diffusion occurring during -Al2O3 growth is reduced by the presence of these alloying elements, which are seen by SIMS imaging as oxide particles within the scale. STEM/EDS of the same oxide scales show that zirconium and yttrium also segregated to the oxide-alloy interface to the extent, respectively, of 0.15 and 0.07 of a monolayer and to oxide grain boundaries (0.2 monolayer). The complementary information provided by SIMS, TEM, and STEM provides a better understanding of the role of reactive elements in modifying scale-growth processes. |
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