Phase Evolution and Microstructural Studies in CaZrTi2 O7- Nd2 Ti2 O7 System.

A series of compositions with general stoichiometry Ca_{1− x} Zr_{1− x} Nd_{2 x} Ti₂ O₇ has been prepared by high-temperature solid-state reaction of component oxides and characterized by powder X-ray diffraction and electron probe for microanalyses ( EPMA). The phase fields in CaZrTi₂ O₇- Nd₂ Ti₂ O₇ system and distribution of ions in different phases have been determined. Four different phase fields, namely monoclinic zirconolite, cubic perovskite, cubic pyrochlore, and monoclinic Nd₂ Ti₂ O₇ structure types are observed in this system. The 4M-polytype of zirconolite structure is stabilized by substitution of Nd³⁺ ion. The addition of Nd³⁺ ions form a cubic perovskite structure-type phase and thus observed in all the compositions with 0.05 ≤ x ≤ 0.80. Cubic pyrochlore structure-type phase is observed as a coexisting phase in the nominal composition with 0.20 ≤ x ≤ 0.90. Only a subtle amounts of Ca²⁺ and Zr⁴⁺ are incorporated into the perovskite-type Nd₂ Ti₂ O₇ structure. EPMA analyses on different coexisting phases revealed that the pyrochlore and perovskite phases have Nd³⁺-rich compositions. [ABSTRACT FROM AUTHOR]