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Antiplane Problem of Electroelasticity for a Hollow Piezoceramic Cylinder Excited by a System of Surface Electrodes

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Mechanics of Composite Materials Aims and scope

Abstract

An antiplane mixed boundary-value problem of electroelasticity is considered for a hollow piezoceramic cylinder with an arbitrary system of active surface electrodes generating its harmonic vibrations. The problem is solved using a method elaborated earlier for investigating vibrations of a solid piezoceramic cylinder with a system of active surface electrodes. The scheme of numerical solution of the obtained singular integro-differential equations of the boundary-value problem is based on the quadrature method. Calculation results are presented that describe the amplitude-frequency characteristics of a hollow cylinder and the behavior of some mechanical and electric quantities both within the cylinder and on its boundary.

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Authors and Affiliations

  1. Athens National Technical University, Greece

    D. Bardzokas

  2. Sumskii State University, Ukraine

    M. L. Fil'shtinskii

  3. Havana University, Cuba

    R. Rodriguez-Ramos

  4. Institute of Cybernetics, Mathematics, and Physics, Cuba

    O. Sanchez-Casals

Authors
  1. D. Bardzokas
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  2. M. L. Fil'shtinskii
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  3. R. Rodriguez-Ramos
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  4. O. Sanchez-Casals
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Bardzokas, D., Fil'shtinskii, M.L., Rodriguez-Ramos, R. et al. Antiplane Problem of Electroelasticity for a Hollow Piezoceramic Cylinder Excited by a System of Surface Electrodes. Mechanics of Composite Materials 38, 47–54 (2002). https://doi.org/10.1023/A:1014008923649

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  • DOI: https://doi.org/10.1023/A:1014008923649

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