Research Article Open Access

THE THEORETICAL SIMULATION OF AXIAL VIBRATIONS IN FINITE CYLINDRICAL PIEZOELECTRIC SHELL MADE OF THE TRIGONAL (3M) CRYSTAL

H. Zeynali1, B. Jazi2 and R. Karimi3
  • 1 Islamic Azad University of Kashan, Iran
  • 2 University of Kashan, Iran
  • 3 Islamic Azad University of Natanz, Iran
Physics International
Volume 4 No. 1, 2013, 13-22

DOI: https://doi.org/10.3844/pisp.2013.13.22

Submitted On: 3 August 2012 Published On: 15 February 2013

How to Cite: Zeynali, H., Jazi, B. & Karimi, R. (2013). THE THEORETICAL SIMULATION OF AXIAL VIBRATIONS IN FINITE CYLINDRICAL PIEZOELECTRIC SHELL MADE OF THE TRIGONAL (3M) CRYSTAL. Physics International, 4(1), 13-22. https://doi.org/10.3844/pisp.2013.13.22

Abstract

The axial vibration in a thin layer of finite cylinder made of trigonal (3M) piezoelectric crystal are investigated. By using a closed form solution of the equations of motion and applying new boundary conditions the effects of the geometrical dimensions, axial hydrostatic pressure and electrostatic potential along the axis of the cylinder shell on oscillation frequency and amplitude of spatial vibrations are simulated.

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Keywords

  • Finite Cylindrical Piezoelectric Shell