Add to ORKGThe paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a single span beam axially constrained at both end, possibly with elastic constraints, is considered as representative of different common layout of microresonators. An analytical model, based on the Hamilton's principle, accounting for large displacements is presented and validated thanks to numerical finite element analyses. In order to widen the linear operation range of the device an optimal geometry of the resonator is proposed
Abstract Micro-bridge resonator with dielectric elastomer that is sandwiched between two electrodes ...
Abstract: Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on th...
A unique T-beam microresonator designed to operate on the principle of nonlinear modal interactions ...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
This work is focussed on the nonlinear dynamic response of electrostatically actuated micro-resonat...
This paper investigates the development of a novel framework and its implementation for the nonlinea...
Microbeams and microcantilevers are the main part of many MEMS. There are several body and contact f...
Dynamics of a beam-based micro-electromechanical resonator is investigated theoretically and experim...
In this study a theoretical and experimental investigation of the nonlinear response of an electrica...
A great majority of the micromechanical resonators in the literature are based on linear response un...
The nonlinear size-dependent dynamics of a geometrically imperfect Timoshenko microbeam subject to a...
An investigation into the dynamic behavior of a slightly curved resonant microbeam having nonideal b...
The geometrically nonlinear size-dependent behaviour of a Timoshenko microbeam is examined numerical...
This paper investigates the nonlinear size-dependent dynamics of an imperfect Timoshenko microbeam, ...
Oscillating microplates attached to microbeams is the main part of many microresonators and micro-el...
Abstract Micro-bridge resonator with dielectric elastomer that is sandwiched between two electrodes ...
Abstract: Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on th...
A unique T-beam microresonator designed to operate on the principle of nonlinear modal interactions ...
The paper analyzes the nonlinear dynamic response of microresonators. A simple physical model of a s...
This work is focussed on the nonlinear dynamic response of electrostatically actuated micro-resonat...
This paper investigates the development of a novel framework and its implementation for the nonlinea...
Microbeams and microcantilevers are the main part of many MEMS. There are several body and contact f...
Dynamics of a beam-based micro-electromechanical resonator is investigated theoretically and experim...
In this study a theoretical and experimental investigation of the nonlinear response of an electrica...
A great majority of the micromechanical resonators in the literature are based on linear response un...
The nonlinear size-dependent dynamics of a geometrically imperfect Timoshenko microbeam subject to a...
An investigation into the dynamic behavior of a slightly curved resonant microbeam having nonideal b...
The geometrically nonlinear size-dependent behaviour of a Timoshenko microbeam is examined numerical...
This paper investigates the nonlinear size-dependent dynamics of an imperfect Timoshenko microbeam, ...
Oscillating microplates attached to microbeams is the main part of many microresonators and micro-el...
Abstract Micro-bridge resonator with dielectric elastomer that is sandwiched between two electrodes ...
Abstract: Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on th...
A unique T-beam microresonator designed to operate on the principle of nonlinear modal interactions ...