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An Alternative Accurate Method to Pull-in Prediction in Electrically Actuated Fully Clamped Rectangular Micro-plates
In this paper stable and un-stable behavior of fully clamped rectangular micro-plates under the effect of
electrostatic pressure are studied. To this end, the Kirchhoff thin plate theory is employed to derive ...
A Novel Method for Investigating the Casimir Effect on Pull-In Instability of Electrostatically Actuated Fully Clamped Rectangular Nano/Microplates
The objective of the present paper is to represent a novel method to investigate the stable and unstable behaviors of fully clamped rectangular nano/microplates under the effects of electrostatic and Casimir pressures. To ...
Investigation of length and initial gap variation on pull-in voltage of multilayered micro-beam
In this work, a multilayered fully clamped micro-beam is modeled using commercial FEM software (COMSOL
Multiphysics). The model is designed to investigate the pull-in instability of the multilayered micro-beam ...
Material and Geometrical Characteristics Investigation of Micro-beam on Pull-in Voltage Using FEM and Taguchi DOE
In this work, a fully clamped micro-beam is modeled using commercial FEM software (COMSOL
Multiphysics). The model is designed to investigate the pull-in instability of the micro-beam under the effect of
el ...
Free vibration analysis of a fully clamped rectangular plate-type nano/micro-resonator in presence of the Casimir force
The Casimir force is resulting from the propagation of retarded electromagnetic waves and acts in sub-micron separations. This force is inversely proportional to the fourth power of the nano/micro-plate’s deflection. Hence, ...
Size-dependent pull-in analysis of electrically actuated micro-plates based on the modified couple stress theory
In view of the difficulties arisen in determining the solutions of linear eigenvalue problems of fully-clamped rectangular micro-plates, the size-dependent pull-in analysis of such systems has not been carried out yet. ...