The dependence of electrical properties of Ba0.92Ca0.08TiO3 PTC ceramics on the SYO2 or TiO2 content was studied. The dependence of room, temperature resistivity on the SiO2 content was determined by the variation of ...The dependence of electrical properties of Ba0.92Ca0.08TiO3 PTC ceramics on the SYO2 or TiO2 content was studied. The dependence of room, temperature resistivity on the SiO2 content was determined by the variation of the microstructure of Ba0.92Ca0.08TiO3 PTC ceramics . It was shown that a small amount of excessive TiO2 (2mol% ) added could increase the dielectric constant of materials, and it results in a reducing of the potential height (e·) of grain boundary. Thus, samples with particularly low room temperature resistivity were obtained. The relationship of PTC effect with the TiO2 content was also discussed by using the chemistry defect theory . The inferior PTC effect caused by excessive TiO2 may be concerned with the behavior of oxygen vacancies in the grains of ceramics.展开更多
Raman and IR spectra of Nb-doped PTC Ba1-xPbxTiO3 semiconducting ceramics (x = 0,0. 28,0. 296,0. 313,0. 330,0. 370) have been measured, and mode assignments of Raman scattering frequencies and infrared absorption peak...Raman and IR spectra of Nb-doped PTC Ba1-xPbxTiO3 semiconducting ceramics (x = 0,0. 28,0. 296,0. 313,0. 330,0. 370) have been measured, and mode assignments of Raman scattering frequencies and infrared absorption peaks have been made at room temperature. The influence of Pb2+ ions content on resistivity temperature characteristics and vibration spectra for the Ea1-xPbxTiO3, ceramics have been discussed,and the temperature dependence of the Raman spectra in tetragonal and cubic phases have been investigated from 25 to 340℃. The results indicated that the Raman spectra of the paraelectric phase above Curie point are obviously different from that of ferroelectric phase below Curie point are obviously different from that of ferroelectric phase below Curie point for all the samples. Curie point of each sample,which is determined by resistivity-temperature characteristic measurment, is in good agreement with the results of Raman analysis. The ferroelectric phase transition in the PTCR Bai-xPbxTiO3 ceramics belongs to a distortion or displacement transition.展开更多
文摘The dependence of electrical properties of Ba0.92Ca0.08TiO3 PTC ceramics on the SYO2 or TiO2 content was studied. The dependence of room, temperature resistivity on the SiO2 content was determined by the variation of the microstructure of Ba0.92Ca0.08TiO3 PTC ceramics . It was shown that a small amount of excessive TiO2 (2mol% ) added could increase the dielectric constant of materials, and it results in a reducing of the potential height (e·) of grain boundary. Thus, samples with particularly low room temperature resistivity were obtained. The relationship of PTC effect with the TiO2 content was also discussed by using the chemistry defect theory . The inferior PTC effect caused by excessive TiO2 may be concerned with the behavior of oxygen vacancies in the grains of ceramics.
文摘Raman and IR spectra of Nb-doped PTC Ba1-xPbxTiO3 semiconducting ceramics (x = 0,0. 28,0. 296,0. 313,0. 330,0. 370) have been measured, and mode assignments of Raman scattering frequencies and infrared absorption peaks have been made at room temperature. The influence of Pb2+ ions content on resistivity temperature characteristics and vibration spectra for the Ea1-xPbxTiO3, ceramics have been discussed,and the temperature dependence of the Raman spectra in tetragonal and cubic phases have been investigated from 25 to 340℃. The results indicated that the Raman spectra of the paraelectric phase above Curie point are obviously different from that of ferroelectric phase below Curie point are obviously different from that of ferroelectric phase below Curie point for all the samples. Curie point of each sample,which is determined by resistivity-temperature characteristic measurment, is in good agreement with the results of Raman analysis. The ferroelectric phase transition in the PTCR Bai-xPbxTiO3 ceramics belongs to a distortion or displacement transition.
