Bistability of curved microbeams actuated by fringing electrostatic fields

Krylov, Slava; Ilić, B.; Lulinsky, Stella

doi:10.1007/s11071-011-0038-y

Cited by 126 publications

(65 citation statements)

References 55 publications

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“…Krylov et al [13][14][15] examined experimentally and theoretically the various scenarios of snap-through motion and pull-in instability in deliberately fabricated MEMS arches of deep capacitive gaps. They used the Galerkin procedure to solve for the dynamic response including geometric and electric nonlinearities.…”

Section: Introductionmentioning

confidence: 99%

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Dynamics of a clamped–clamped microbeam resonator considering fabrication imperfections

Bataineh

Younis

2014

Microsyst Technol

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We present an investigation into the static and dynamic behavior of an electrostatically actuated clamped-clamped polysilicon microbeam resonator accounting for its fabrication imperfections, which are commonly encountered in similar microstructures. These are mainly because of the initial deformation of the beam due to stress gradient and its flexible anchors. First, we show experimental data of the microbeam when driven electrically by varying the amplitude and frequency of the voltage loads. The results reveal several interesting nonlinear phenomena of jumps, hysteresis, and softening behaviors. Theoretical investigation is then conducted to model the microbeam, and hence, interpret the experimental data. We solve the Eigen value problem governing the natural frequencies analytically. We then utilize a Galerkin-based procedure to derive a reduced order model, which is then used to simulate both the static and dynamic responses. To achieve good matching between theory and experiment, we show that the exact profile of the deformed beam needs to be utilized in the reduced order model, as measured from the optical profiler, combined with a shooting technique simulation, which is capable of tracing the resonant frequency branches under very-low damping conditions.

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Section: Introductionmentioning

confidence: 99%

“…They also studied the transient response and escape from one potential well to the other one. In [15], Krylov et al demonstrated the actuation of clamped-clamped arches using fringing effect of the electrostatic forces.…”

Section: Introductionmentioning

confidence: 99%

Dynamics of a clamped–clamped microbeam resonator considering fabrication imperfections

Bataineh

Younis

2014

Microsyst Technol

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“…The main problem with this approach is that the distributed electrostatic force comes in an integral form in the resulting ROM equations, and consequently this integral form is not easy to deal analytically due to nonlinearities arising from its denominator. As an attempt to overcome this challenge, some groups [31,32] used Taylor-series expansion procedure, which brings the nonlinearity to the numerator of the electrostatic force and hence simplifies the calculation of nonlinear ROM integrals. Others suggested multiplying the resultant equation of motion by the electrostatic force denominator and hence the evaluation of the integral in the ROM equation will not be problematic anymore [25].…”

Section: Static Analysismentioning

confidence: 99%

Structural Behavior of a Multi-Layer Based Microbeam Actuator

2016

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Abstract:In this paper, the structural behavior of a micro-electromechanical system (MEMS) composed of two electrically coupled parallel clamped-clamped microbeams is investigated. An Euler Bernoulli beam model is considered along with the nonlinear electric actuating force to get the equation of motion governing the structural behavior of the actuator. A reduced-order modeling (ROM) based on the Galerkin expansion technique, while assuming linear undamped mode shapes of a straight fixed-fixed beam as the basis functions, is assumed as a discretization technique of the equations of motion in this investigation. The results showed that the double-microbeam MEMS actuator configuration requires a lower actuation voltage and a lower switching time as compared to the single microbeam actuator. Then, the effects of both microbeams air gap depths were investigated. Finally, the eigenvalue problem was investigated to get the variation of the fundamental natural frequencies of the coupled parallel microbeams with the applied actuating DC load.

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“…In particular, curved micro-beams tend to unveil snap-through instabilities and symmetric/nonsymmetric buckling behaviors. [23][24][25][26][27][28][29][30][31][32][33] In this article, the influence of SQFD on oscillations of a slightly curved micro-beam is considered. The initial shape of the beam is assumed to have a sinusoidal profile.…”

Section: Introductionmentioning

confidence: 99%

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

Ouakad

Al‐Qahtani

Hawwa

2016

Advances in Mechanical Engineering

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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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Bistability of curved microbeams actuated by fringing electrostatic fields

Cited by 126 publications

References 55 publications

Dynamics of a clamped–clamped microbeam resonator considering fabrication imperfections

Dynamics of a clamped–clamped microbeam resonator considering fabrication imperfections

Structural Behavior of a Multi-Layer Based Microbeam Actuator

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

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