Abstract
The La2O3-HfO2 system is a base for many advanced materials used in high temperature technologies and nuclear industry. Information on vaporization processes and thermodynamic properties of ceramics based on the La2O3-HfO2 system is important to prevent the La2O3 selective vaporization during their synthesis or usage. The study was carried out by the Knudsen effusion mass spectrometric method. At 2337 K LaO and O were the main vapor species over the samples in the La2O3-HfO2 system. The dependence of the La2O3 activities on composition in the La2O3-HfO2 system was obtained by the differential mass spectrometric method. The HfO2 activities, excess Gibbs energies and Gibbs energies of mixing were evaluated in the solid solutions of the La2O3-HfO2 system at 2337 K using the Gibbs-Duhem equation and showed significant negative deviations from ideality. The solid solution presumably with the pyrochlore structure was characterized with the strongest negative deviations.
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