Effects of casimir and van der waals forces on the pull-in instability of the nonlinear micro and nano-bridge gyroscopes

Please enable javascript in your browser.

Mojahedi, M ; Sharif University of Technology

652 Viewed

Type of Document: Article
DOI: 10.1142/S0219455413500594
Abstract:
The influence of Casimir and van der Waals forces on the instability of vibratory micro and nano-bridge gyroscopes with proof mass attached to its midpoint is studied. The gyroscope subjected to the base rotation, Casimir and van der Waals attractions is actuated and detected by electrostatic methods. The system has two coupled bending motions actuated by the electrostatic and Coriolis forces. First a system of nonlinear equations for the flexural-flexural deflection of beam gyroscopes is derived using the extended Hamilton's principle. In modeling, the nonlinearities due to mid-plane stretching, electrostatic forces, including fringing field, Casimir and van der Waals attractions, are considered. The method of homotopy perturbation is used to solve the equations of equilibrium, with the solution validated by numerical methods. In addition, the effect of nondimensional parameters on the instability and deflection of the gyroscope is investigated. The data presented can be used in the design of vibratory micro/nano gyroscopes
Keywords:
nano-bridge gyroscope ; Casimir ; Nanobridge ; Pull-in instability ; Van der waals ; Electrostatic actuators ; Electrostatics ; Perturbation techniques ; Stability ; Van der Waals forces ; Gyroscopes
Source: International Journal of Structural Stability and Dynamics ; Vol. 14, issue. 2 , 2014 ; ISSN: 02194554
URL: http://www.worldscientific.com/doi/abs/10.1142/S0219455413500594