Dispersion characteristics of complex electromechanical parameters of porous piezoceramics

I. A. Shvetsov; M. A. Lugovaya; M. G. Konstantinova; P. A. Abramov; E. I. Petrova; N. A. Shvetsova; A. N. Rybyanets

doi:10.1142/S2010135X21600043

[1] W. Heywang. Piezoelectricity, Evolution and Future of a Technology(2008).

[2] L. Li, S. Zhang, Z. Xu, X. Geng, T. R. Shrout. 1-3 ceramic/polymer composites for high-temperature transducer applications. Phys. Status Solidi A, 210, 1888(2013).

[3] J. Erhart, P. Pulpan, M. Pustka. Piezoelectric Ceramic Resonators,Topics in Mining, Metallurgy and Materials Engineering(2017).

[4] A. N. Rybyanets. Ceramic Piezocomposites: Modeling, Technology, and Characterization(2010).

[5] J. Wight. Cellular Ceramics: Structure, Manufacturing, Properties and Applications(2005).

[6] A. N. Rybyanets. Porous piezoelectric ceramics – A historical overview. Ferroelectrics, 419, 90(2011).

[7] A. N. Rybyanets. Porous Ceramics and Piezocomposites: Modeling, Technology, and Characterization(2017).

[8] A. N. Rybyanets. Porous piezoceramics: Theory, technology, and properties. IEEE Trans. UFFC, 58, 1492(2011).

[9] A. R. Studart, U. T. Gonzenbach, E. Tervoort, L. J. Gauckler. Processing routes to macroporous ceramics: A review. J. Am. Ceram. Soc., 89, 1771(2006).

[10] M. O’Donnell, E. T. Jaynes, J. G. Miller. General relationship between ultrasonic attenuation and dispersion. J. Acoust. Soc. Am., 63, 1935(1978).

[11] M. A. Lugovaya, I. A. Shvetsov, N. A. Shvetsova, A. V. Nasedkin, A. N. Rybyanets. Elastic losses and dispersion in porous piesoceramics. Ferroelectrics, 571, 263(2021).

[12] PRAP, Piezoelectric resonance analysis programme, TASI Technical Software, www.tasitechnical.com.

[13] A. N. Rybyanets, A. A. Naumenko, S. A. Shcherbinin, I. A. Shvetsov, M. A. Lugovaya, N. A. Shvetsova, E. I. Petrova. Losses and Dispersion in Porous Piezoceramics: Theoretical Analysis and Experimentals(2017).

[14] A. A. Naumenko, M. A. Lugovaya, S. A. Shcherbinin, A. N. Rybyanets. Elastic losses and dispersion in ceramic matrix composites. Ferroelectrics, 484, 69(2015).

[15] A. N. Rybyanets, A. A. Naumenko, G. M. Konstantinov, N. A. Shvetsova, M. A. Lugovaya. Elastic loss and dispersion in ceramic-matrix piezocomposites. Phys. Solid State, 57, 558(2015).

[16] A. N. Rybyanets, A. A. Naumenko, M. A. Lugovaya, N. A. Shvetsova. Electric power generations from PZT composite and porous ceramics for energy harvesting devices. Ferroelectrics, 484, 95(2015).

[17] K. Hudai, R. Rajamami, R. Stevens, C. R. Bowen. Porous PZT ceramics for receiving transducers. IEEE Trans. UFFC, 50, 289(2003).

[18] A. N. Rybyanets. Recent Advances in Medical Ultrasound(2012).

[19] A. Rybianets, Y. Eshel, L. Kushkuley. New low-Q ceramic piezocomposites for ultrasonic transducer applications. Proc. 2006 IEEE Ultrasonics Symp., 1911-1914(2006).