Mechanics of Solids
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Issues > Archive of Issues > 2017-1 > pp.81-94

Archive of Issues

Total articles in the database:		11223
In Russian (Изв. РАН. МТТ):		8011
In English (Mech. Solids):		3212

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S.M. Afonin, "Parametric Block Diagrams of a Multi-Layer Piezoelectric Transducer of Nano- and Microdisplacements under Transverse Piezoelectric Effect," Mech. Solids. 52 (1), 81-94 (2017)

Year

2017

Volume

Number

Pages

81-94

DOI

10.3103/S0025654417010101

Title

Parametric Block Diagrams of a Multi-Layer Piezoelectric Transducer of Nano- and Microdisplacements under Transverse Piezoelectric Effect

Author(s)

S.M. Afonin (National Research University of Electronic Technology, Proezd 4806, 5, Zelenograd, Moscow, 124498 Russia, learner01@mail.ru)

Abstract

A structural-parametric model and parametric block diagrams of a piezoelectric transducer in the transverse piezoelectric effect are obtained with regard to the counter-electromotive force. The transfer functions of the multi-layer piezoelectric transducer of nano- and microdisplacements are determined with regard to the influence of geometric and physical parameters of the multi-layer piezoelectric transducer, the counter-electromotive force, and the external load.

Keywords

multi-layer piezoelectric transduce, nano- and microdisplacements, transverse piezoelectric effect, counter-electromotive force, elastic compliance, piezoelectric transducer rigidity, parametric block diagrams, transfer functions

References

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3.	V. M. Klimashkin, V. G. Nikiforov, and A. Ya. Safronov, "Multi-Layer Piezoelectic Actuators and Specific Features of Their Application," Komponenty Tekhnol.. No. 6, 62-65(2007).
4.	A. E. Panich, Piezoceramic Actuators (Yuzhn. Fed. Univ., Rostov-on-Don, 2008) [in Russian].
5.	S. M. Afonin, "Static and Dynamic Characteristics of a Multi-Layer Electroelastic Solid," Izv. Ross. Akad. Nauk. Mekh. Tverd. Tela, No. 6, 149-168 (2009) [Mech. Solids (Engl. Transl.) 44 (6), 935-950 (2009)].
6.	S. M. Afonin, "Parametric Block Diagrams of Multi-Layer Piezoactuator of Nano- and Microdisplacements in the Longitudinal Piezoeffect," Elektrichestvo, No. 2, 61-67 (2014).
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9.	T. Shigematsu and M. K. Kurosawa, "Friction Drive of an SAW Motor. Part III: Modeling," IEEE Transac. Ultrason. Ferroel. Freq. Control 55 (10), 2266-2276 (2008).
10.	M. K. Kurosawa, "Ultrasonic Linear Motor Using Travelling Surface Acoustic Wave," in Proc. IEEE Ultraxon. Symp., 2009 (2009), pp. 1096-1105.
11.	K. Smyth and S.-G. Kim, "Experiment and Simulation Validated Analytical Equivalent Circuit Model for Piezoelectric Micromachined Ultrasonic Transducer," IEEE Transac. Ultrason. Ferroel. Freq. Control 62 (4), 744-765 (2015).
12.	F. Sammoura and S.-G. Kim, "Theoretical Modeling and Equivalent Electric Circuit of a Bimorph Piezoelectric Micromachined Ultrasonic Transducer," IEEE Transac. Ultrason. Ferroel. Freq. Control 59 (5), 990-998 (2012).
13.	K. Uchino, Piezoelectric Actuator and Ultrasonic Motors (Kluwer, Boston, 1997).
14.	A. Borboni, Meso- to Micro-Actuators: A Theoretical and Practical Approach (CRC Press, Boca Raton, 2008).

Received

24 January 2014

Link to Fulltext

http://link.springer.com/article/10.3103/S0025654417010101

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