As the size of the micro-electro-mechanical systems (MEMS) continues to decrease, the classical elasticity continuum theory may be inefficient to describe their mechanical behaviors. By introducing the strain gradient elasticity into the classical Kirchhoff plate theory, the size-dependent model for electrostatically actuated microplate-based MEMS is developed. The sixth-order partial differential equation (PDE), derived with the help of the principle of minimum potential energy, can be numerically solved by utilizing generalized differential quadrature (GDQ) method and pseudo arc-length algorithm. The model, with three material length scale parameters (MLSPs) included, can predict prominent size-dependent normalized pull-in voltage with th...
Characterization of nonlinear behavior of micro-mechanical components in MEMS applications plays an ...
This paper is the first which examines the nonlinear dynamical characteristics of an imperfect micro...
Micro- and nano-electromechanical systems (MEMS-NEMS) are integral parts of the modern world today a...
Size-dependent characteristics have been widely observed in microscale devices. For the electrostati...
We present a size-dependent model for electrostatically actuated microbeam-based MEMS using strain g...
The three-dimensional nonlinear mechanics and pull-in characteristics of a microplate-based microele...
We present a size-dependent model for electrostatically actuated microbeam-based MEMS using strain g...
With piezoelectric layers attached, the electrostatically actuated microbeam-based MEMS (Micro-Elect...
With piezoelectric layers attached, the electrostatically actuated microbeam-based MEMS (Micro-Elect...
This work deals with the mechanical response of circular microplates undergoing electrostatic actuat...
This paper presents a new analytical model for electrostatically actuated micro-actuators to explore...
We present a reduced-order model for electrically actuated microplate-based MEMS. The model accounts...
Abstract: In this paper a distributed model with three possible static modes was presented to invest...
We present a reduced-order model for electrically actuated microplate-based MEMS. The model accounts...
In the last decades, Micro-Electro-Mechanical Systems (MEMS) have drawn immense attention due to the...
Characterization of nonlinear behavior of micro-mechanical components in MEMS applications plays an ...
This paper is the first which examines the nonlinear dynamical characteristics of an imperfect micro...
Micro- and nano-electromechanical systems (MEMS-NEMS) are integral parts of the modern world today a...
Size-dependent characteristics have been widely observed in microscale devices. For the electrostati...
We present a size-dependent model for electrostatically actuated microbeam-based MEMS using strain g...
The three-dimensional nonlinear mechanics and pull-in characteristics of a microplate-based microele...
We present a size-dependent model for electrostatically actuated microbeam-based MEMS using strain g...
With piezoelectric layers attached, the electrostatically actuated microbeam-based MEMS (Micro-Elect...
With piezoelectric layers attached, the electrostatically actuated microbeam-based MEMS (Micro-Elect...
This work deals with the mechanical response of circular microplates undergoing electrostatic actuat...
This paper presents a new analytical model for electrostatically actuated micro-actuators to explore...
We present a reduced-order model for electrically actuated microplate-based MEMS. The model accounts...
Abstract: In this paper a distributed model with three possible static modes was presented to invest...
We present a reduced-order model for electrically actuated microplate-based MEMS. The model accounts...
In the last decades, Micro-Electro-Mechanical Systems (MEMS) have drawn immense attention due to the...
Characterization of nonlinear behavior of micro-mechanical components in MEMS applications plays an ...
This paper is the first which examines the nonlinear dynamical characteristics of an imperfect micro...
Micro- and nano-electromechanical systems (MEMS-NEMS) are integral parts of the modern world today a...