AbstractElectrostatically actuated micro devices experience a fundamental limit on their stable travel range due to a phenomenon called as the pull-in Instability. Accurate determination of pull-in parameters (pull-in displacement and pull-in voltage) is vital in the design of electrostatic micro actuators. A systematic method of analysis of prismatic type of electrostatic beam is discussed in this paper. Using Galerkin method static analysis is carried out. Behaviour of interaction of nonlinear electrostatic force with linear restoring force of the micro cantilever beam is studied. Static analysis using COMSOL multiphysics finite element package is done to validate the results. The results are also compared with existing literature
This paper presents a new analytical model for electrostatically actuated micro-actuators to explore...
In this study, the influences of the squeeze-film damping effect on the dynamic behavior of the micr...
One of the most common applications of MEMS is by utilizing them as microsensors and microactuators....
AbstractElectrostatically actuated micro devices experience a fundamental limit on their stable trav...
Microcantilever beams find applications in modern micro and nano devices, such as, microswitches, mi...
Micro-electromechanical systems (MEMS) are a promising research frontier thanks to their multiple ph...
A general theory and method are presented and employed to analyze the static behaviors of rigid and ...
In this article, we present an efficient numerical scheme based on the Rayleigh-Ritz method to deter...
This paper concerns the experimental validation of some mathematical models previously developed by ...
In this study, a new analytical model is developed for an electrostatic Microelectromechanical Syste...
Abstract—The nonlinear pull-in behavior for different electrostatic micro-actuators is simulated in ...
Experimental validation of numerical models developed by the authors to predict the static behaviour...
Micro Electro Mechanical Systems (MEMS) such as microsensors and microactuators that use the electro...
This paper investigates the pull-in behavior of an electrostatically actuated geometrically nonlinea...
A comparative study of closed-form methods for calculating the pull-in voltage of electrostatically ...
This paper presents a new analytical model for electrostatically actuated micro-actuators to explore...
In this study, the influences of the squeeze-film damping effect on the dynamic behavior of the micr...
One of the most common applications of MEMS is by utilizing them as microsensors and microactuators....
AbstractElectrostatically actuated micro devices experience a fundamental limit on their stable trav...
Microcantilever beams find applications in modern micro and nano devices, such as, microswitches, mi...
Micro-electromechanical systems (MEMS) are a promising research frontier thanks to their multiple ph...
A general theory and method are presented and employed to analyze the static behaviors of rigid and ...
In this article, we present an efficient numerical scheme based on the Rayleigh-Ritz method to deter...
This paper concerns the experimental validation of some mathematical models previously developed by ...
In this study, a new analytical model is developed for an electrostatic Microelectromechanical Syste...
Abstract—The nonlinear pull-in behavior for different electrostatic micro-actuators is simulated in ...
Experimental validation of numerical models developed by the authors to predict the static behaviour...
Micro Electro Mechanical Systems (MEMS) such as microsensors and microactuators that use the electro...
This paper investigates the pull-in behavior of an electrostatically actuated geometrically nonlinea...
A comparative study of closed-form methods for calculating the pull-in voltage of electrostatically ...
This paper presents a new analytical model for electrostatically actuated micro-actuators to explore...
In this study, the influences of the squeeze-film damping effect on the dynamic behavior of the micr...
One of the most common applications of MEMS is by utilizing them as microsensors and microactuators....