Abstract
The industry makes a significant number of standard-sized piezoceramic elements from various materials [1, 2]. Some are shown in Fig. 2.1. Monomorph piezoelements are as follows: elements of one piezoelement; on the surfaces electrodes appear, which can include piezoelements in an electrical circuit.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
The Catalogue of Products of Open Society “Aurora”. Volgograd, 1990 (in Russian)
N.A. Shulga, A.M. Bolkisev,Fluctuations of Piezoelectric Bodies. AS USSR. Mechanics Institute(Naukova dumka, Kiev, 1990), p. 228 (in Russian)
G. Katts (ed.),Magnetic and Dielectric Devices(Energiya, Moscow, 1964), p. 416 (in Russian)
A.I. Trofimov,Piezoelectric Transducers Static Forces(Mashinostroenie, Moscow, 1979), p. 95 (in Russian)
P.E. Kandiba, P.G. Pozdnyakov,Quartz Resonators, Moscow (in Russian)
V.M. Sharapov, M.P. Musienko, E.V. Sharapova, inPiezoelectric Sensors, ed. by V.M. Sharapov (Technosphera, Moscow, 2006), p. 632 (in Russian)
Y. Mason,Piezoelectric Crystals and Their Application in Ultraacoustics(Publishing Foreign Literature Publishing House, Moscow, 1952), p. 423–431 (in Russian)
A.A. Harkevich,The Theory of Transducers(Gosenergoizdat, Moscow, 1948) (in Russian)
A.N. Alekseev,Formulas of Communication of Electric Parametres Piezoceramic Resonators with Geometry of a Design and Electrophysical Properties. Electronic Technics. Radio Components. Series 10. Release 3(The Central Research Institute “Electronics”, Moscow, 1972), p. 119–132 (in Russian)
W. Mason,Physical Acoustics. Methods and Devices of Ultrasonic Researches, Part A(Mir, Moscow, 1966) (in Russian)
M. Onoe, H.F. Tiersten, Resonant frequencies of finite piezoelectric ceramic vibrators with high electromechanical coupling. IEEE Trans. Ultrason. Eng.UE-10(1), 32–39 (1963)
E. Giebe, E. Blechschmidt, Experimental and theoretical investigations of expanding and, oscillating of the rods and tubes. Ann. Phys.18, 417–485 (1933)
Y. Cady, Piezoelectricity and its practical applications, 1949 (in Russian)
M. Onoe, Useful formularize for piezoelectric ceramic resonators. J. Acoust. Soc. Am.41(4), 974 (1967)
R. Holland, E.P. EerNisse,Design of Resonant Piezoelectric Devices(MIT Press, London, 1969), p. 857
V. Domarkas, R.J. Kazys,Piezoelectric Transducers for Measuring Devices(Mintis, Vilnus, 1974), p. 258 (in Russian)
L.Ya. Gutin,The Selected Works(Sudostroenie, Moscow, 1977), p. 559 (in Russian)
L.Ya. Gutin, On the theory of piezoelectric effect. Mag. Exp. Theor. Phys.15(7), 367–379 (1945) (in Russian)
L.Ya. Gutin, Piezoelectric radiators and receivers. Mag. Exp. Theor. Phys.16(1), 39–54 (1946) (in Russian)
I.G. Rusakov, Piezoelectric transducers low frequency. Mag. Exp. Theor. Phys.13(4-C), 473–482 (1943) (in Russian)
I.G. Rusakov, Piezoelectric transducers low frequency. Mag. Exp. Theor. Phys.13(4-P), 482–501 (1943) (in Russian)
A.A. Harkevich,The Theory of Electroacoustic Transducers, T.1, Wave Processes (Science, Moscow, 1973), 399c (in Russian)
A.A. Harkevich, About application ferroelectric salts in piezoelectric devices. Mag. Exp. Theor. Phys.13, 585–595 (1943)
V.V. Lavrinenko,Piezoelectric Transformes(Energiya, Moscow, 1975), p. 112 (in Russian)
O. Gribovskiy,Ceramic Firm Schemes(Energiya, Moscow, 1971), p. 448 (in Russian)
E.C. Munk, The equivalent electrical circuit for radial modes of a piezoelectric ceramic disc with concentric electrodes. Philips Res. Repts20, 170–189 (1965)
C.V. Stephenson, Radial vibrations in short, hollow cylinders of barium titanate. J. Acoustic. Soc. Am.28(1), 51–56 (1956)
M. Onoe, T. Kurati, Asymmetrical fluctuations concerning an axis in disk ceramic resonators. Denki cusin gakkay dzassi49(1), 104–110 (1966)
G.G. Chernih, L.C. Soboleva, V.V. Haritonov,On a Question on Radial Fluctuations of Thin Piezoceramic Disks and Rings. Electronic Technics. Radio Components, Series 10. Release 1(The Central Research Institute “Electronica”, Moscow, 1972), p. 67–87 (in Russian)
E.G. Bronnikova, O.A. Genjentseva, Piezoceramic filters with the resonators working on the first overtone of radial fluctuations. Radio electronics questions, series III. Details and equipment components, 1965, release 2, p. 108–114 (in Russian)
G.G. Chernih, Ya.A. Gorbadey, On a question concerning planimetric fluctuations of quartz resonators. Electronic Techniques, Series IX, Radio Components, Release1, 11–17 (1971) (in Russian)
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2011 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Sharapov, V. (2011). Monomorph Piezoceramic Elements. In: Piezoceramic Sensors. Microtechnology and MEMS. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-15311-2_2
Download citation
DOI: https://doi.org/10.1007/978-3-642-15311-2_2
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-15310-5
Online ISBN: 978-3-642-15311-2
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)