Journal of Advanced Dielectrics, Volume. 11, Issue 5, 2160007(2021)

Specific features of SH-waves propagation in structures with prestressed inhomogeneous coating made of piezoceramics based on LiNbO3

T. I. Belyankova1、*, E. I. Vorovich2, V. V. Kalinchuk1, and O. M. Tukodova2
Author Affiliations
  • 1Department of Mechanics, Mathematics and Nanotechnology, Southern Scientific Center of RAS, 41 Chekhov Avenue, 344006 Rostov-on-Don, Russia
  • 2Department of Applied Mathematics, Don State Technical University, 1 Gagarin Square, 344010 Rostov-on-Don, Russia
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    References(28)

    [1] MasonW. P.,Physical Acoustics and the Properties of Solids (Princeton, N.J., Van Nostrand,1958).

    [2] DieulesaintE. andRoyerD.,Ondes Elastiques Dans Les Solides: Application au traitement du signal (Masson,Paris,1974)

    [3] MatthewsH.,Surface Wave Filters: Design, Construction and Use (Wiley,New York,1977).

    [4] BernhardJ. andMichaelJ. V.,Properties of Love waves: Applications in sensors,Smart Mater. Struct.6,668(1997).

    [5] BiryukovS. V.,GulyaevY. V.,KrylovV. V. andPlesskyV. P.,Surface Acoustic Waves in Inhomogeneous Media (Springer-Verlag,New York,1995).

    [6] JinF.,WangZ. andWangT.,The Bleustein–Gulyaev (B–G) wave in a piezoelectric layered half-space,Int. J. Eng. Sci.39,1271(2001).

    [7] HanX.,LiuG. R.,LamK. Y. andOhyoshiT.,A quadratic layer element for analyzing stress waves in FGMs and its application in material characterization,J. Sound Vib.236(2),307(2000).

    [8] LiX. Y.,WangZ. K. andHuangS. H.,Love waves in functionally graded piezoelectric materials,Int. J. Solids Struct.41,7309(2004).

    [9] CaoX.,JinF. andJeonI.,Calculation of propagation properties of Lamb waves in a functionally graded material (FGM) plate by power series technique,NDT&E Int.44,84(2011).

    [10] ColletB.,DestradeM. andMauginG. A.,Bleustein–Gulyaev waves in some functionally graded materials,Eur. J. Mech. A Solids25,695(2006).

    [11] DuJ.,JinX.,WangJ. andXianK.,Love wave propagation in functionally graded piezoelectric material layer,Ultrasonics46(1),13(2007).

    [12] CaoX.,JinF.,JeonI. andLuT. J.,Propagation of Love waves in a functionally graded piezoelectric material (FGPM) layered composite system,Int. J. Solids Struct.46,4123(2009).

    [13] QianZ.-H.,JinF. andHiroseS.,Dispersion characteristics of transverse surface waves in piezoelectric coupled solid media with hard metal interlayer,Ultrasonics51,853(2011).

    [14] LiP.,JinF. andLuT.-J.,A three-layer structure model for the effect of a soft middle layer on Love waves propagating in layered piezoelectric systems,Acta Mech. Sin.28(4),1087(2012).

    [15] DanoyanZ. N. andPiliposianG. T.,Surface electro-elastic shear horizontal waves in a layered structure with a piezoelectric substrate and a hard dielectric layer,Int. J. Solids Struct.45,431(2008).

    [16] PlutaM.,von ButtlarM.,HabibA.et al.,Modeling of Coulomb coupling and acoustic wave propagation in LiNbO3,Ultrasonics48(6–7),583(2008).

    [17] BorisevichA. Y. andDaviesP. K.,Crystalline structure and dielectric properties of Li(1+x−y)Nb(1−x−3y)Ti(x+4y)O(3) M-phase solid solutions,J. Am. Ceram. Soc.85(3),573(2002).

    [18] KravchenkoO. Yu.,ReznichenkoL. A.,ShilkinaL. A.,RazumovskayaO. N.,DudkinaS. I.,GadzhievG. G.,KallaevS. N. andOmarovZ. M.,Properties of Na0.875Li0.125NbO3 ceramics,Inorg. Mater.44(10),1135(2008).

    [19] KravchenkoO. Yu.,ReznichenkoL. A. andFomenkoD. S.,Dielectric properties of Na1−xKxNbO3 and Na1−xLixNbO3 ceramics,Inorg. Mater.47(5),561(2011).

    [20] PalatnikovM. N.,ShcherbinaO. B.,EfremovV. V.,SidorovN. V. andSalakA. N.,Microstructure and young’s modulus of high-pressure LixNa1−xTayNb1−yO3 ceramics,Inorg. Mater.47(6),686(2011).

    [21] KalinchukV. V. andBelyankovaT. I.,Dynamic Contact Problems for Prestressed Electroelastic Media (Fizmatlit,Moscow,2006).

    [22] BelyankovaT. I. andKalinchukV. V.,Dynamics of a Surface of Inhomogeneous Media (Fizmatlit,Moscow,2009).

    [23] BelyankovaT. I.,KalinchukV. V. andTukodovaO. M.,Peculiarities of the surface SH – waves propagation in the weakly in homogeneous pre-stressed piezoelectric structures, inAdvanced Materials, Springer Proceedings in Physics Vol. 175 (Springer, 2016), p.143.

    [24] BelyankovaT. I.,VorovichE. I.,KalinchukV. V. andTukodovaO. M.,Peculiarities of surface acoustic waves, propagation in structures with functionally graded piezoelectric materials, coating from different ceramics on the basis of PZT,J. Adv. Dielectr.10(1–2),2060017(2020).

    [25] BelyankovaT. I. andKalinchukV. V.,Shear horizontal waves in piezoelectric structures with a functionally graded coating,Mech. Adv. Mater. Struct.28(5),486(2021).

    [26] BelyankovaT. I. andKalinchukV. V.,Influence of an electrostatic field on SAW in prestressed ferroelectric heterostructures,Mech. Solids55,844(2020).

    [27] YamadaT.,NiizekiN. andToyodaH.,Piezoelectric and elastic properties of lithium niobate single crystals,J. Appl. Phys.6(5),151(1967).

    [28] WarnerA. W.,OnoeM. andCoquinG. A.,Determination of Elastic and Piezoelectric Constants for Crystals in Class (3m),J. Acoust. Soc. Am.42(6),1223(1967).

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    T. I. Belyankova, E. I. Vorovich, V. V. Kalinchuk, O. M. Tukodova. Specific features of SH-waves propagation in structures with prestressed inhomogeneous coating made of piezoceramics based on LiNbO3[J]. Journal of Advanced Dielectrics, 2021, 11(5): 2160007

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    Paper Information

    Category: Research Articles

    Received: Apr. 14, 2021

    Accepted: May. 19, 2021

    Published Online: Feb. 21, 2022

    The Author Email: Belyankova T. I. (tbelen415@mail.ru)

    DOI:10.1142/S2010135X21600079

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