References
- C. Xin, S. F. Huang, J. Chang, and Z. Li, Piezoelectric, dielectric, and ferroelectric properties of 0–3 ceramic/cement composites, J. Appl. Phys. 101, 094110–094116 (2007).
- R. Potong, R. Rianyoi, A. Ngamjarurojana, and A. Chaipanich, Fabrication and performance investigation of 2–2 connectivity lead-free barium zirconate titanate–Portland cement composites, Ceram. Int. 40, 8723–8728 (2014).
- H. Shifeng, X. Dongyu, C. Xin, and J. Minhua, Dielectric and Piezoelectric Properties of 2–2 Cement Based Piezoelectric Composite, J. Compos. Mater. 42, 2437–2443 (2008).
- A. Chaipanich, H. R. Zeng, G. R. Li, Q. R. Yin, R. Yimnirun, and N. Jaitanong, Piezoelectric Force Microscope Investigation and Ferroelectric Hysteresis Behavior of High Volume Piezoelectric Ceramic in 0–3 Lead Zirconate Titanate-Cement Composites, Ferroelectr. 492, 54–58 (2016).
- Z. Li, D. Zhang, and K. Wu, Cement-based 0–3 piezoelectric composites, J. Am. Ceram. Soc. 85, 305–313 (2002).
- H. Gong, Y. Zhang, and S. Che, Influence of Carbon Black on Properties of PZT-Cement Piezoelectric Composites, J. Compos. Mater. 44, 2747–2757 (2010).
- Y. Lee, E. Jeong, and J. S. Im, Applications of Carbon Materials for Ferroelectric and Related Materials, Dr. I. Coondoo (Ed.), Ferroelectrics., InTech, 155–164 (2010). Available from: http://www.intechopen.com/books/ferroelectrics/carbon-composites-for-applications-as-ferroelectric-related-materials.
- G. Rujijanagul, S. Jompruan, and A. Chaipanich, Influence of graphite particle size on electrical properties of modified PZT–polymer composites, Curr. Appl. Phys. 8, 359–362 (2008).
- W. K. Sakamoto, P. Marin-Franch, and D. K. Das-Gupta, Characterization and application of PZT/PU and graphite doped PZT/PU composite, Sensor Actuat. A: Physical. 100, 165–174 (2002).
- Y. Li, H. Cheng, H. Xu, Y. Zhang, P. Yan, T. Huang, C. Wang, Z. Hu, and J. Ouyang, Electromechanical properties of (Ba,Sr)(Zr,Ti)O3 ceramics, Ceram. Int. 42, 10191–10196 (2016).
- A. M. Moisin, A. I. Dumitru, E. Andronescu, and C. Ghitulica, Studies on PZT–Nb modified piezoceramic materials, J. Optoelectron Adv. M. 8, 553–554 (2006).
- A. Chaipanich, Dielectric and piezoelectric properties of PZT–cement composites, Curr. Appl. Phys. 7, 537–539 (2007).
- Z. Li, H. Gong, amd Y. Zhang, Fabrication and piezoelectricity of 0–3 cement based composite with nano-PZT powder, Curr. Appl. Phys. 9, 588–591 (2009).
- H. Gong, Z. Li, Y. Zhang, and R. Fan, Piezoelectric and dielectric behavior of 0–3 cement-based composites mixed with carbon black, J. Eur. Ceram. Soc. 29, 2013–2019 (2009).
- H. Gong, Y. Zhang, J. Quan, and S. Che, Preparation and properties of cement based piezoelectric composites modified by CNTs, Curr. Appl. Phys. 11, 653–656 (2001).
- A. Chaipanich, N. Jaitanong, and R. Yimnirun, Effect of carbon addition on the ferroelectric hysteresis properties of lead zirconate–titanate ceramic–cement composites, Ceram. Int. 37, 1181–1184 (2011).
- J. Li, K. Wang, F. Zhu, L. Cheng, and F. Yao, (K, Na)NbO3-based lead-free piezoceramics: Fundamental aspects processing technologies, and remaining challenges, J. Am. Ceram. Soc. 96, 3677–3696 (2013).
- Z. Sun, L. Lin, H. Zheng, S. Yu, and D. Xu, Effects of sintering temperature on the microstructure and dielectric properties of BaZr0.2Ti0.8O3 ceramics, Ceram. Int. 41, 12158–12163 (2015).
- M. Chandraiah, B. Sahoo, and P. K. Panda, Synthesis and electrical properties of CaO doped BZT lead free piezo ceramics, Ferroelectr. 494, 192–199 (2016).
- N. Lertcumfu, K. Pengpat, S. Eitssayeam, T. Tunkasiri, and G. Rujijanagul, Electrical properties of BZT/mullite ceramic composites, Ceram. Int. 41, S447–S452 (2015).
- N. Nanakorn, P. Jalupoom, N. Vaneesorn, and A. Thanaboonsombut, Dielectric and ferroelectric properties of Ba(ZrxTi1-x)O3 ceramics, Ceram. Int. 34, 779–782 (2008).
- F. Moura, A. Z. Simões, B. D. Stojanovic, M. A. Zaghete, E. Longo, and J. A. Varela, Dielectric and ferroelectric characteristics of barium zirconate titanate ceramics prepared from mixed oxide method, J. Alloys Compd. 462, 129–134 (2008).
- P. Kantha, N. Pisitpipathsin, K. Pengpat, S. Eitssayeam, and Pojprapai S., Structural and electrical properties of BZT-added BNLT ceramics, Ceram. Int. 40, 4251–4256 (2014).
- J. Q. Qi, B. B. Liu, H. Y. Tian, H. Zou, Z. X. Yue, and L. T. Li, Dielectric properties of barium zirconate titanate (BZT) ceramics tailored by different donors for high voltage applications. Solid State Sci. 14, 1520–1524 (2012).
- R. Potong, R. Rianyoi, A. Ngamjarurojana, R. Yimnirun, R. Guo, A. S. Bhalla, and A. Chaipanich, Acoustic and piezoelectric properties of 0–3 barium zirconate titanate-Portland cement composites-effects of BZT content and particle size, Ferroelectr. 455, 69–76 (2013).
- R. Potong, R. Rianyoi, A. Ngamjarurojana, and A. Chaipanich, Dielectric and piezoelectric properties of 1–3 non-lead barium zirconate titanate-Portland cement composites, Ceram. Int. 39, S53–S57 (2013).
- C. K. Wong, and F. G. Shin, Effect of electrical conductivity on poling and the dielectric, pyroelectric and piezoelectric properties of ferroelectric 0–3 composites, J. Mater. Sci. 41, 229–249 (2016).