Enhanced Adherence of Al₂O₃ Coating Layer by Concurrent S Suppression and TiC Surface Precipitation

抄録

Our previous works have demonstrated that the adherence of Al₂O₃ coating layer to alloys is decreased by interfacial segregation of S but increased by interfacial precipitation of TiC. In this work we tried to improve the adherence of the Al₂O₃ coating layer by simultaneous suppression of S segregation and promotion of TiC precipitation. For this purpose surface analysis by AES was made at 1 100 K on Ti containing alloys doped with Ce or Y₂O₃ for suppressing S segregation, and other reference alloys. The adherence was evaluated through cyclic oxidation test at 1 100 K in pure O₂. In accord with the expectation, the Al₂O₃ coating layer was the most protective on MA956-0.52Y₂O₃ alloy which generates TiC surface precipitation and suppresses S surface segregation very well. In order to elucidate the Al₂O₃/alloy interfacial phenomena, some alloys partially coated with an extremely thin Al₂O₃ layer were heated in an apparatus of XPS. Chemical shift of the peaks of O 1s and Al 2p by heating was observed on an alloy on which the surface segregation of S takes place extensively, but not on alloys on which S segregation is slight. This result, along with the oxidation result, affords an important evidence of our previous conclusion that Al₂O₃/alloy bonding is largely weakened by S segregated at the interface.