![]() ![]() Shrout, T.R., Zhang, S.: Lead-free piezoelectric ceramics: alternatives for PZT? J. Suárez, D.Y., Reaney, I.M., Lee, W.E.: Relation between tolerance factor and Tc in Aurivillius compounds. Xing, X., Cao, F., Peng, Z., Xiang, Y.: Electrical properties and sintering characteristics of zirconium doped CaBi 2Nb 2O 9 ceramics. ![]() Xing, X., Cao, F., Peng, Z., Xiang, Y.: The effects of oxygen vacancies on the electrical properties of W, Ti doped CaBi 2Nb 2O 9 piezoceramics. Liu, G., Wu, C., Chen, Y., Liang, D., Wang, B., Wu, J., Chen, Q.: Enhanced ferroelectricity of CaBi 2Nb 2O 9-based high-temperature piezoceramics by pseudo-tetragonal distortion. Zeng, X., Cao, F., Peng, Z., Xing, X.: Crystal structure and electrical properties of (Li, Ce, Nd)-multidoped CaBi 2Nb 2O 9 high temperature ceramics. Tinbo, B.: Effect of A site substitution on the properties of CaBi 2Nb 2O 9 ferroelectric ceramics. Wang, Y., Wu, J., Peng, Z., Chen, Q., Xin, D., Xiao, D., Zhu, J.: Piezoelectric properties and thermal stability of Ca0.92(Li,Ce)0.04Bi2Nb2−x W x O9 high-temperature ceramics. 107, 14–16 (2013)Ĭhen, J., Yuan, J., Bao, S., Wu, Y., Liu, G., Chen, Q., Xiao, D., Zhu, J.: Effects of (Li, Ce, Y) co-substitution on the properties of CaBi 2Nb 2O 9 high temperature piezoceramics. Piezoelectric Accelerometers with Integral Electronics, also called Integrated Electronic Piezoelectric Accelerometers, represent the large class of dynamic vibration sensors that incorporate into one shielded package a Piezoelectric transducer as a mechanical part and integral electronics as an electrical part 121. Peng, Z., Chen, Q., Wang, Y., Xin, D., Xian, D., Zhu, J.: Enhancement of piezoelectric properties of (LiCePr)-multidoped CaBi 2Nb 2O 9high temperature ceramics. Wang, C.M., Zhang, S., Wang, J.F., Zhao, M.L., Wang, C.L.: Electromechanical properties of calcium bismuth niobate (CaBi 2Nb 2O 9) ceramics at elevated temperature. Tian, X., Qu, S., Ma, H., Pei, Z., Wang, B.: Effect of grain size on dielectric and piezoelectric properties of bismuth layer structure CaBi 2Nb 2O 9 ceramics. 3, 49–51 (2009)Ĭhen, H., Zhai, J.: Enhancing piezoelectric performance of CaBi2Nb2O 9 ceramics through microstructure control. Wang, C.-M., Wang, J.-F., Zhang, S., Shrout, T.R.: Piezoelectric and electromechanical properties of ultrahigh temperature CaBi 2Nb 2O 9 ceramics. Zhang, X., Yan, H., Reece, M.J.: Effect of a site substitution on the properties of CaBi2Nb 2O9 ferroelectric ceramics. 754–756 (2007)Ĭhen, H., Shen, B., Xu, J., Kong, L., Zhai, J.: Correlation between grain sizes and electrical properties of CaBi 2Nb 2O 9 piezoelectric ceramics. This voltage is proportional to the acceleration of the mass. When the accelerometer is subjected to vibration, a force is generated and a small millivolt change is measured. Piezoelectric Accelerometer View Accelerometers In Stock AC vs. In: 2007 Sixteenth IEEE International Symposium on the Applications of Ferroelectrics, pp. Piezoelectric accelerometers consist of a seismic mass attached to a piezo material (like ceramic). Zhang, H.: Accelerometer based on high Tc piezoelectric ceramics. Yan, H., Zhang, H., Reece, M.J., Dong, X.: Thermal depoling of high Curie point Aurivillius phase ferroelectric ceramics. Yan, H., Zhang, H., Ubic, R., Reece, M.J., Liu, J., Shen, Z., Zhang, Z.: A lead-free high-curie-point ferroelectric ceramic, CaBi 2Nb 2O 9. Zhang, S., Yu, F.: Piezoelectric materials for high temperature sensors.
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