In this paper, the size-dependent resonant behavior of a microcantilever immersed in an incompressible fluid cavity is investigated. The nonclassical modified couple stress theory (MCST) is employed to capture the effects of length scale. The microbeam is deflected by applying a bias direct current (DC) voltage and then driven to vibrate around its deflected position by a harmonic alternating (AC) voltage. Regarding the nonlinear electrostatic force and the fluid pressure exerted upon the microbeam, the governing equations of the system are derived based on the MCST. Multiple scales method is used to obtain an approximate analytical solution for nonlinear resonance curves. Initially, the effect of length scale parameter on the dynamic response of system is studied, and then, a parametric study is conducted to evaluate the effects of MCST as well as the fluidic confinement on the resonance curves. The obtained results reveal that the frequency response along with the softening behavior of the system decreases when MCST is used. It is shown that the resonance amplitude obtained by the MCST is considerably smaller than those obtained by the classical theory (CT). Finally, it is found that the dynamic stability margins of the system could be extended by the size effect perspective.
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July 2016
Research-Article
Nonlinear Vibrations of an Electrostatically Actuated Microresonator in an Incompressible Fluid Cavity Based on the Modified Couple Stress Theory
Ghader Jabbari,
Ghader Jabbari
Department of Mechanical Engineering,
Urmia University,
Urmia 51818-57561, Iran
e-mail: gh.jabbari@gmail.com
Urmia University,
Urmia 51818-57561, Iran
e-mail: gh.jabbari@gmail.com
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Rasoul Shabani,
Rasoul Shabani
Department of Mechanical Engineering,
Urmia University,
Urmia 51818-57561, Iran
e-mail: r.shabani@urmia.ac.ir
Urmia University,
Urmia 51818-57561, Iran
e-mail: r.shabani@urmia.ac.ir
Search for other works by this author on:
Ghader Rezazadeh
Ghader Rezazadeh
Department of Mechanical Engineering,
Urmia University,
Urmia 51818-57561, Iran
e-mail: g.rezazadeh@urmia.ac.ir
Urmia University,
Urmia 51818-57561, Iran
e-mail: g.rezazadeh@urmia.ac.ir
Search for other works by this author on:
Ghader Jabbari
Department of Mechanical Engineering,
Urmia University,
Urmia 51818-57561, Iran
e-mail: gh.jabbari@gmail.com
Urmia University,
Urmia 51818-57561, Iran
e-mail: gh.jabbari@gmail.com
Rasoul Shabani
Department of Mechanical Engineering,
Urmia University,
Urmia 51818-57561, Iran
e-mail: r.shabani@urmia.ac.ir
Urmia University,
Urmia 51818-57561, Iran
e-mail: r.shabani@urmia.ac.ir
Ghader Rezazadeh
Department of Mechanical Engineering,
Urmia University,
Urmia 51818-57561, Iran
e-mail: g.rezazadeh@urmia.ac.ir
Urmia University,
Urmia 51818-57561, Iran
e-mail: g.rezazadeh@urmia.ac.ir
1Corresponding author.
Contributed by the Design Engineering Division of ASME for publication in the JOURNAL OF COMPUTATIONAL AND NONLINEAR DYNAMICS. Manuscript received October 31, 2015; final manuscript received April 14, 2016; published online May 24, 2016. Assoc. Editor: Stefano Lenci.
J. Comput. Nonlinear Dynam. Jul 2016, 11(4): 041029 (8 pages)
Published Online: May 24, 2016
Article history
Received:
October 31, 2015
Revised:
April 14, 2016
Citation
Jabbari, G., Shabani, R., and Rezazadeh, G. (May 24, 2016). "Nonlinear Vibrations of an Electrostatically Actuated Microresonator in an Incompressible Fluid Cavity Based on the Modified Couple Stress Theory." ASME. J. Comput. Nonlinear Dynam. July 2016; 11(4): 041029. https://doi.org/10.1115/1.4033442
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