Phase Equilibrium of the In2O3—TiO2—MO (M: Ca, Sr) Systems and the Structure of In6Ti6CaO22.

The subsolidus phase diagram CaO-Al 2 O 3 -Ta 2 O 5 has been determined at 1300-1350°C. Two ternary phases are present, Ca 2 AlTaO 6 and the new phase, CaAlTaO 5 . From Rietveld refinement of powder X-ray diffraction data, CaAlTaO 5 has the sphene structure, monoclinic 6.6760(3), 8.9546(3), 7.3494(3

The subsolidus phase diagram, CaO+Al 2 O 3 +CoO, and its phase relations below 13003C have been studied in air. The stability regions of nine subsolidus compatibility triangles were established and a new ternary phase was found. The structure of this compound, Ca 3 CoAl 4 O 10 (orthorhombic, space g

Single crystals of Ba 6 Fe 45 Ti 17 O 106 and BaFe 11 Ti 3 O 23 were obtained as major and minor coproducts, respectively, by slowcooling an off-stoichiometric BaO:Fe 2 O 3 :TiO 2 melt. The former compound exhibits variable stoichiometry, Ba 6 Fe 48؊x Ti 14؉x O 106 , with the Fe:Ti ratio dependent u

Ba3Te2O6X2 is obtained by reacting TeO2 in a BaX2 flux at 1000 °C under atmospheric conditions. The samples are characterized by powder and single crystal XRD. All four compounds crystallize in the cubic space group Fd3m with Z = 16. The structures consist of a rigid ∞ 3 [M3Te2O6] 2+ framework (M: S