References
- C. A. Randall, A. Kellnberger, G. Y. Yang, R. E. Eitel, and T. R. Shrout, High strain piezoelectric multilayer actuators – a material science and engineering challenge, J Electroceram. 14, 177–91 (2005).
- B. Jaffe, W. R. Cook, and H. Jaffe, Piezoelectric Ceramics. (Academic Press, London, 1971).
- G. Helke, S. Seifert, and S.-J. Cho, Phenomenological and structural properties of piezoelectric ceramics based on xPb)Zr,Ti(O3–(1−x(Sr)K0.25Nb0.75(O3)PZT/SKN) solid solutions, J Eur Ceram Soc. 19, 1265–8 (1999).
- N. J. Donnelly, T. R. Shrout, and C. A. Randall, Addition of a Sr, K, Nb)SKN) combination to PZT)53/47) for high strain applications, J Am Ceram Soc. 90 (2), 490–5 (2007).
- M. A. Akbas, M. A. McCoy, and W. E. Lee, Microstructural evolution during pressure less sintering of lead lanthanum zirconate titanate ceramics with excess lead)II) oxide, J Am Ceram Soc. 78 (9), 2417–24 (1995).
- V. Koval and J. Briancin, Effect of poling process on the piezoelectric and dielectric properties of Nb and Sr-doped PZT ceramics, Ferroelectrics. 193, 41–9 (1997).
- R. F. Zhang, H. P. Zhang, J. Ma, Y. Z. Chen, and T. S. Zhang, Effect of Y and Nb codoping on the microstructure and electrical properties of lead zirconate titanate ceramics, Solid State Ionics. 166, 219–23 (2004).
- W. K. Sakamoto, E. Souza, and D. K. Das – Gupta, Electroactive properties of flexibile piezoelectric composites, Materials Research. 4, 201–204 (2011).
- J. M. Kelly, A Study of Electromechanical Properties of PMN – PT Ceramics and Analysis of the Effects of Loss on Frequency Response of Piezoelectric Ceramics, Rutgers University. (1998).
- T. Kühnlein, A. Stiegelschmitt, A. Roosen, and M. Rauscher, Development of a model for the sintering of PZT multilayer ceramics and their dielectric properties, Journal of the European Ceramic Society. 33, 991–1000 (2013).
- R. B. Atkin and R. M. Fulrath, Point defects and sintering of lead zirconate-tinanate, J Am Ceram Soc. 54 (5), 265–9 (1971).
- N. J. Donnelly, T. R. Shrout, and C. A. Randall, Thermochemical reactions between PZT and Ag/Pd powders: relevance to coffering of multilayer actuators, J Am Ceram Soc. 91 (3), 1013–8 (2008).
- R. Zuo, L. Li, N. Zhang, and Z. Gui, Interfacial reaction of Ag/Pd metals with Pbbased relaxor ferroelectrics including additives, Ceram Int. 27, 85–8 (2001).
- S. Chen, B. Zhao, P. C. Hayes, and E. Jak, Experimental study of phase equilibria in the PbO–Al2O3–SiO2 system, Metal Mater Trans B. 32B, 997–1005 (2001).
- H. J. Hwang, M. Yasuoka, M. Sando, and M. Toriyama, Fabrication, sinterability, and mechanical properties of lead zirconate titanate/silver composites, J Am Ceram Soc. 82 (9), 2417–22 (1999).
- A. I. Kingon and J. B. Clark, Sintering of PZT ceramics: II. Effect of PbO content on densification kinetics, J Am Ceram Soc. 66 (4), 256–60 (1983).