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Solid solution with fluorite structure in the CaF 2 ‐ LaF 3 system
Author(s) -
Švantner M.,
Mariani E.,
Fedorov P. P.,
Sobolev B. P.
Publication year - 1979
Publication title -
kristall und technik
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.377
H-Index - 64
eISSN - 1521-4079
pISSN - 0023-4753
DOI - 10.1002/crat.19790140319
Subject(s) - solid solution , eutectic system , fluorite , phase diagram , saturation (graph theory) , electrical resistivity and conductivity , analytical chemistry (journal) , conductivity , activation energy , phase (matter) , diagram , materials science , thermodynamics , crystallography , chemistry , mineralogy , microstructure , physics , metallurgy , mathematics , chromatography , combinatorics , organic chemistry , quantum mechanics , statistics
Abstract The phase equilibrium of fluorite Ca 1−x La x F 2+x solid solutions in the CaF 2 ‐ LaF 3 system is investigated by means of DTA and X‐ray analysis. The phase diagram of his system is of eutectic type with limited solid solutions with the structure of components. The eutectic coordinates are 1311°C and 58 mole% of LaF 3 . The saturation line of fluorite solid solution has an anomalous S‐shape. The elementary cell parameter of this solution has been approximated by the parabolic equation a = a o + 0.597x + + 0.134x 2 , where a o = 5.46295 Å denotes the parameter of CaF 2 elementary cell. Both dc/from 20 to 450°C/and ac/from 450 to 600°C/electrical conductivities were measured at concentrations covering almost whole region of the Ca 1−x La x F 2+x solid solution formation. They are characterized by increasing conductivity and decreasing activation energy with increasing LaF 3 concentrations. In samples with x > 0, 11 an increase of electrical conductivity due to aging was observed.