Abstract
For low dielectric loss perovskite-structured (1-x-y)BiFeO3-xBi(Zn1/2Ti1/2)O3-yPbTiO3 (BF-BZT-PT) (x = 0.04-0.15 and y = 0.15-0.26) ceramics in rhombohedral/tetragonal coexistent phase, structural phase transitions were studied using differential thermal analyzer combined with temperature-dependent dielectric measurement. Two lattice structural phase transitions are disclosed in various BF-BZT-PT perovskites, which is different from its membership of BiFeO3 exhibiting just one lattice structural phase transition at Curie temperature TC= 830oC. Consequently, residual internal tensile stresses were revealed experimentally through XRD measurements on ceramic pellets and counterpart powders, which are reasonably attributed to special structural phase transition sequence of BF-BZT-PT solid solution perovskites. Low piezoresponse was observed and argued extrinsically resulting from residual tensile stresses pinning ferroelectric polarization switching. Post-annealing and subsequent quenching was found effective for eliminating residual internal stresses in those BZT-less ceramics, and good piezoelectric property of d33 ≥ 28 pC/N obtained for 0.70BF-0.08BZT-0.22PT and 0.05 wt% MnO2-doped 0.70BF-0.04BZT-0.26PT ceramics with TC ≥ 640oC, while it seemed no effective for those BZT-rich BF-BZT-PT ceramics with x = 0.14 and 0.15 studied here.
Highlights
High temperature electronics are becoming commercially required in applications where cooling is not practical or an improved system reliability and better efficiency is motivated in the form of decreased size, weight or power for the electronics to operate in the hot environment at or above 150oC rather than from self-heating
For low dielectric loss perovskite-structured (1-x-y)BiFeO3-xBi(Zn1/2Ti1/2)O3yPbTiO3 (BF-BZT-PT) (x = 0.04-0.15 and y = 0.15-0.26) ceramics in rhombohedral/tetragonal coexistent phase, structural phase transitions were studied using differential thermal analyzer combined with temperature-dependent dielectric measurement
Residual internal tensile stresses were revealed experimentally through X-ray diffraction (XRD) measurements on ceramic pellets and counterpart powders, which are reasonably attributed to special structural phase transition sequence of BF-BZT-PT solid solution perovskites
Summary
High temperature electronics are becoming commercially required in applications where cooling is not practical or an improved system reliability and better efficiency is motivated in the form of decreased size, weight or power for the electronics to operate in the hot environment at or above 150oC rather than from self-heating. With the global requirements for increased efficiency and safety, piezoelectric sensors have been pursuing to meet the increasing demand in applications of pressurized water reactors, flow monitoring in oil and gas plant, and position sensing in aerospace, which integrates relatively simple device packaging that can withstand elevated temperature ranges, within 350-600oC, to condition monitoring and acoustic non-destructive testing..
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