Influence of squeeze-film damping on the dynamic behavior of a curved micro-beam

Hassen M. Ouakad; Hussain M. Al-Qahtani; Muhammad A. Hawwa

doi:10.1177/1687814016650120

Influence of squeeze-film damping on the dynamic behavior of a curved micro-beam

Hassen M. Ouakad
, Hussain M. Al-Qahtani
, Muhammad A. Hawwa^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

A fixed-fixed curved micro-beam resonator under the influence of harmonic electrostatic field is considered. Due to the presence of incompressible fluid between the micro-beams and the electrode, a squeeze-film damping affects the dynamic behavior of the resonator. The combined effect of curved geometry and fluid squeeze-film damping is investigated for micro-beams with concave and convex geometries. A reduced-order model is obtained through the application of Galerkin discretization on a coupled fluid-structure system composed of the nonlinear Euler-Bernoulli beam equation and Burgdorfer's model for the neighboring fluid. The dynamic behavior is assessed by investigating the influence of squeeze-film damping on the linear and nonlinear frequency response and the maximum resonant deflection of curved up and curved down micro-beams.

Original language	English
Journal	Advances in Mechanical Engineering
Volume	8
Issue number	6
DOIs	https://doi.org/10.1177/1687814016650120
State	Published - 1 May 2016

Bibliographical note

Publisher Copyright:
© The Author(s) 2016.

Keywords

Mathematical modeling
microelectromechanical systems
nonlinear analysis
structural mechanics
vibration theory

ASJC Scopus subject areas

Mechanical Engineering

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10.1177/1687814016650120

Cite this

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title = "Influence of squeeze-film damping on the dynamic behavior of a curved micro-beam",

abstract = "A fixed-fixed curved micro-beam resonator under the influence of harmonic electrostatic field is considered. Due to the presence of incompressible fluid between the micro-beams and the electrode, a squeeze-film damping affects the dynamic behavior of the resonator. The combined effect of curved geometry and fluid squeeze-film damping is investigated for micro-beams with concave and convex geometries. A reduced-order model is obtained through the application of Galerkin discretization on a coupled fluid-structure system composed of the nonlinear Euler-Bernoulli beam equation and Burgdorfer's model for the neighboring fluid. The dynamic behavior is assessed by investigating the influence of squeeze-film damping on the linear and nonlinear frequency response and the maximum resonant deflection of curved up and curved down micro-beams.",

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AU - Ouakad, Hassen M.

AU - Al-Qahtani, Hussain M.

AU - Hawwa, Muhammad A.

N1 - Publisher Copyright: © The Author(s) 2016.

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N2 - A fixed-fixed curved micro-beam resonator under the influence of harmonic electrostatic field is considered. Due to the presence of incompressible fluid between the micro-beams and the electrode, a squeeze-film damping affects the dynamic behavior of the resonator. The combined effect of curved geometry and fluid squeeze-film damping is investigated for micro-beams with concave and convex geometries. A reduced-order model is obtained through the application of Galerkin discretization on a coupled fluid-structure system composed of the nonlinear Euler-Bernoulli beam equation and Burgdorfer's model for the neighboring fluid. The dynamic behavior is assessed by investigating the influence of squeeze-film damping on the linear and nonlinear frequency response and the maximum resonant deflection of curved up and curved down micro-beams.

AB - A fixed-fixed curved micro-beam resonator under the influence of harmonic electrostatic field is considered. Due to the presence of incompressible fluid between the micro-beams and the electrode, a squeeze-film damping affects the dynamic behavior of the resonator. The combined effect of curved geometry and fluid squeeze-film damping is investigated for micro-beams with concave and convex geometries. A reduced-order model is obtained through the application of Galerkin discretization on a coupled fluid-structure system composed of the nonlinear Euler-Bernoulli beam equation and Burgdorfer's model for the neighboring fluid. The dynamic behavior is assessed by investigating the influence of squeeze-film damping on the linear and nonlinear frequency response and the maximum resonant deflection of curved up and curved down micro-beams.

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KW - microelectromechanical systems

KW - nonlinear analysis

KW - structural mechanics

KW - vibration theory

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Influence of squeeze-film damping on the dynamic behavior of a curved micro-beam

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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