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Abstract
Abstract
Scandia, yttria and erbia are thermodynamically stable oxides and could be used as a structural material for crucibles, in order to avoid contamination of the melt. These oxides have similar wetting behaviour in contact with aluminium containing melts, but different interaction characteristics and different interfacial products. When yttria and erbia substrates are exposed to Al containing melts, the substrate decomposes, large amounts of Y or Er are released into the melt and a thick interaction layer consisting of a new YAlO3 or ErAlO3 phase is formed beneath the drop. These results were not obtained in the Sc2O3/Al system where only a slight amount of Sc was dissolved in the melt and a thin interfacial layer consisting of Al2O3 was formed. The differences in the mechanism and in the nature of the reaction products of the studied systems are attributed to the thermodynamic properties of the ternary Al–Me–O systems. These properties dictate the sequence of dissolution–precipitation reactions during the wetting experiment and the final equilibrium state for each system.
The authors wish to thank Mr M. Shohat and Ms H. Nagar for their expert technical assistance. This work was supported by the grant no. 138‐05 from the Israeli Council of High Education and the Israeli Atomic Energy Commission.