[ Log In | Register]
! Skip Navigation Links
Skip Navigation Links
Image of Journal of Applied Nonlinear Dynamics
ISSN:2164-6457 (print)
ISSN:2164-6473 (online)
Journal of Applied Nonlinear Dynamics
Miguel A. F. Sanjuan (editor), Albert C.J. Luo (editor)
Miguel A. F. Sanjuan (editor)

Department of Physics, Universidad Rey Juan Carlos, 28933 Mostoles, Madrid, Spain

Email: miguel.sanjuan@urjc.es

Albert C.J. Luo (editor)

Department of Mechanical and Industrial Engineering, Southern Illinois University Ed-wardsville, IL 62026-1805, USA

Fax: +1 618 650 2555 Email: aluo@siue.edu

Nonlinear Dynamics and Parametric Excitation of Piezo-Micro Biological Sensor

Journal of Applied Nonlinear Dynamics 9(2) (2020) 307--321 | DOI:10.5890/JAND.2020.06.011

Sayyid H. Hashemi Kachapi$^{1}$, S. GH. Hashemi Kachapi$^{2}$

$^{1}$ Department of Mechanical Engineering, Babol Noshirvani University of Technology, Babol, Iran

$^{2}$ Department of Physics, Mazandaran University, Babolsar, Iran

Download Full Text PDF

 

Abstract

In this work, nonlinear dynamics and parametric excitation of piezoelectric micro beam subjected a combination of DC and AC voltages is investigated for micro biological sensor applications. The governing differential equation of the motion is derived by the Hamiltonian principle and then by using the Galerkin approach, this partial differential equation (PDE) is simplified into an ordinary differential equation (ODE) in terms of forced damped Mathieu equation with cubic nonlinearity. A perturbation technique, i.e. multiple time scales approach is used for investigation of superharmonic resonances of orders 1/2 and 1/3 and obtaining of the modulation equations in the amplitude and phase. Numerical results of different parameters effects on the piezoelectric micro beam behavior are presented graphically.

References

  1. [1]  Jalili, N. (2010), Piezoelectric-Based Vibration Control: From Macro to Micro/Nano Scale Systems, springer, New York, NY, USA.
  2. [2]  Mohanta, L. (2006), Dynamic stability of a sandwich beam subjected to parametric excitation, M.Sc. thesis, Department of Mechanical Engineering, National University of Technology, Deemed University.
  3. [3]  Turner, K.L. and Zhang, W. (2001), Design and analysis of a dynamic MEM chemical sensor, American Control Conference -IEEE Xplore, 2, 1214-1218.
  4. [4]  Zhang, W., Baskaran, R., and Turner, K.L. (2002), Effect of cubic nonlinearity on autoparametrically amplified resonant MEMS mass sensor, Sensors and Actuators A, 102(1-2), 139-150.
  5. [5]  Zhang, W.M. and Meng, G. (2007), Nonlinear dynamic analysis of electrostatically actuated resonant MEMS sensors under parametric excitation, IEEE Sensors Journal , 7(3), 370-380.
  6. [6]  Zamanian, M., Khadem, S.E., and Mahmoodi, S.N. (2008), The effect of a piezoelectric layer on the mechanical behavior of an electrostatic actuated microbeam, Smart Materials and Structures, 17(6), 065024.
  7. [7]  Rezaei Kivi, A. and Azizi, S. (2015), On the dynamics of a micro-gripper subjected to electrostatic and piezoelectric excitations, International Journal of Non-Linear Mechanics, 77, 183-192.
  8. [8]  Rezaei Kivi, A., Azizi, S., and Marzbanrad, J. (2015), Investigation of static and dynamic pull-in instability in a FGP micro-beam, Sensing and Imaging, doi:10.1007/s11220-014-0104-x.
  9. [9]  Saeedi Vahdat, A., Rezazadeh, G., and Ahmadi, G. (2012), Thermoelastic damping in a micro-beam resonator tunable with piezoelectric layers, Acta Mechanica Solida Sinica, 25(1), 73-81.
  10. [10]  Azizi, S., Rezazadeh, G., Ghazavi, M.R., and Khadem, S.E. (2011), Stabilizing the pull-in instability of an electrostatically actuated micro-beam using piezoelectric actuation, Applied Mathematical Modelling, 35(10), 4796- 4815.
  11. [11]  Azizi, S., Ghazavi, M.R., Khadem, S.E., Rezazadeh, G., and Cetinkaya, C. (2013), Application of piezoelectric actuation to regularize the chaotic response of an electrostatically actuated micro beam, Nonlinear Dynamics, 73(1-2), 853-867.
  12. [12]  Azizi, S., Ghazavi, M.R., Rezazadeh, G., Ahmadian, I., and Cetinkaya, C. (2014), Tuning the primary resonance of a micro resonator, using piezoelectric actuation, Nonlinear Dynamics, 76(1), 839-852.
  13. [13]  Marathe, A. and Chatterjee, A. (2006), Asymmetric Mathieu equations, Proceedings of The Royal Society A, 462(2070), 1643-1659.
  14. [14]  McLachlan, N. (1964), Theory and Application of Mathieu Functions, Dover Publications, New York.
  15. [15]  Ghazavi, M.R., Rezazadeh, G., and Azizi, S. (2010), Pure parametric excitation of the micro cantilever beam actuated by piezoelectric layer, Applied Mathematical Modelling, 34(12), 4196-4207.
  16. [16]  Rezazadeh, G., Fathalilou, M., and Shabani, R. (2009), Static and dynamic stabilities of a microbeam actuated by a piezoelectric voltage, Microsystem Technologies, 15, 1785-1791.
  17. [17]  Rezazadeh, G., Tahmasebi, A., and Zubstov, M (2006), Application of piezoelectric layers in electrostatic MEM actuators: controlling of pull-in voltage, Microsystem Technologies, 12(12), 1163-1170.
  18. [18]  Pandey, M., Rand, R., and Zehnder, A.T. (2007), Frequency locking in a forced Mathieu-van der Pol-Duffing system, Nonlinear Dynamics, 54(1-2), 3-12.
  19. [19]  Ng, L. and Rand, R. (2002), Bifurcations in a Mathieu equation with cubic nonlinearities, Chaos Solitions and Fractals, 14(2), 173-181.
  20. [20]  Hashemi Kachapi, S.H. and Ganji, D.D. (2011), Analytical and Numerical Methods in Engineering and Applied Sciences, Asian Academic Publisher Limited, Progress in Nonlinear Science, Hong Kong, Chine.
  21. [21]  Hashemi Kachapi, S.H. and Ganji, D.D. (2013), Nonlinear Differential Equations: Analytical Methods and Application, Cambridge International Science Publishing Ltd.
  22. [22]  Hashemi Kachapi, S.H. and Ganji, D.D. (2013), Dynamics and Vibration: Progress in Nonlinear Sciences, Springer, Series: Solid Mechanics and Its Applications.
  23. [23]  Ganji, D.D. and Hashemi Kachapi, S.H. (2015), Application of Nonlinear Systems in Nanomechanics and Nanofluids: Analytical Methods and Applications (Micro and Nano Technologies), Elsevier (William Andrew).
  24. [24]  Hashemi Kachapi, S.H., Dardel, M., Mohamadi daniali, H., and Fathi, A. (2019), Pull-in instability and nonlinear vibration analysis of electrostatically piezoelectric nanoresonator with surface/interface effects, Thin-Walled Structures, 143, 106210.
  25. [25]  Hashemi Kachapi, S.H., Dardel, M., Mohamadi daniali, H., and Fathi, A. (2019), Nonlinear dynamics and stability analysis of piezo-visco medium nanoshell resonator with electrostatic and harmonic actuation, Applied Mathematical Modelling, DOI:10.1016/j.apm.2019.05.035.
  26. [26]  Nayfeh, A.H. and Mook, D.T. (1979), Nonlinear Oscillations, John Wiley and Sons, New York.

Copyright © 2011-2023 L & H Scientific Publishing. All rights reserved. Wildcard SSL Certificates