Structural, microstructural and electrical properties of BiFeO3–BaTiO3 ceramics with high thermal stability

Abstract Structural, microstructural, electrical properties and their thermal stability for (1 −  x )BF– x BT system where x ranges from 0.20 to 0.35 have been investigated. Its phase diagram shows a morphortropic phase boundary (MPB) with the coexistence of rhombohedral and pseudo-cubic phases for the composition around 0.275 ≤  x  ≤ 0.30. The optimized piezoelectric properties with d 33 varied from 50 to 136 pC/N and the planar electromechanical coupling factor k p varied from 0.165 to 0.312 over a broad high Curie temperature range from 380 to above 600 °C were obtained. The results indicated that samples with pseudo-cubic phase began to depole far below Curie point, while samples with rhombohedral phase showed good resistance to thermal depoling. A high thermal stability with T d  = 460 °C, combining a high d 33 value of 116 pC/N, was obtained in (1 −  x )BF– x BT ceramics prepared by the conventional ceramic processing technique. The internal bias field in rhombohedral phase would stabilize the remnant polarization and favor the thermal stability.