Add to ORKGThe dynamics of micro/nanoelectromechanical systems (M/NEMS) curved beams have been thoroughly investigated in the literature, commonly for curved arch beams actuated wIith electrodes facing their concave surface. Except for few works on slacked carbon nanotubes, the literature lacks a deep understanding of the dynamics of slacked curved resonators, where the electrode is placed in front of the convex beam surface. This paper investigates the dynamics of slacked curved resonators as experiencing combined internal resonances. The curved slacked resonator is excited using an antisymmetric partial electrode while the electrostatic voltage load is driven to elevated excitations, which breaks the symmetry of the system and affects natural freque...
[[abstract]]This study simulates the vibrations of a single-walled CNT (SWCNT) and multi-walled CNTs...
Micromachined resonators are typically used within their linear range of operation. Recently, there ...
Controlling the nonlinearities of MEMS resonators is critical for their successful implementation in...
The dynamics of micro/nanoelectromechanical systems (M/NEMS) curved beams have been thoroughly inves...
Micromachined shallow arch resonant beams have attracted significant attention thanks to their rich ...
International audienceIn oscillating mechanical systems, nonlinearity is responsible for the departu...
A great majority of the micromechanical resonators in the literature are based on linear response un...
In oscillating mechanical systems, nonlinearity is responsible for the departure from proportionalit...
A unique T-beam microresonator designed to operate on the principle of nonlinear modal interactions ...
This work aims to examine the possibility of internal resonances (modal interactions) among the vibr...
International audienceWe propose a multiphysics model to investigate the nonlinear dynamics of two c...
A novel microresonator operating on the principle of nonlinear modal interactions due to autoparamet...
We experimentally demonstrate an exploitation of the nonlinear softening, hardening, and veering phe...
We for the first time quantitatively investigate experimentally the remarkable influence of slack on...
We experimentally demonstrate an exploitation of the nonlinear softening, hardening, and veering phe...
[[abstract]]This study simulates the vibrations of a single-walled CNT (SWCNT) and multi-walled CNTs...
Micromachined resonators are typically used within their linear range of operation. Recently, there ...
Controlling the nonlinearities of MEMS resonators is critical for their successful implementation in...
The dynamics of micro/nanoelectromechanical systems (M/NEMS) curved beams have been thoroughly inves...
Micromachined shallow arch resonant beams have attracted significant attention thanks to their rich ...
International audienceIn oscillating mechanical systems, nonlinearity is responsible for the departu...
A great majority of the micromechanical resonators in the literature are based on linear response un...
In oscillating mechanical systems, nonlinearity is responsible for the departure from proportionalit...
A unique T-beam microresonator designed to operate on the principle of nonlinear modal interactions ...
This work aims to examine the possibility of internal resonances (modal interactions) among the vibr...
International audienceWe propose a multiphysics model to investigate the nonlinear dynamics of two c...
A novel microresonator operating on the principle of nonlinear modal interactions due to autoparamet...
We experimentally demonstrate an exploitation of the nonlinear softening, hardening, and veering phe...
We for the first time quantitatively investigate experimentally the remarkable influence of slack on...
We experimentally demonstrate an exploitation of the nonlinear softening, hardening, and veering phe...
[[abstract]]This study simulates the vibrations of a single-walled CNT (SWCNT) and multi-walled CNTs...
Micromachined resonators are typically used within their linear range of operation. Recently, there ...
Controlling the nonlinearities of MEMS resonators is critical for their successful implementation in...
