Add to ORKGAbstract — Oscillatory gas flow in squeeze-film dampers is studied up to frequencies where the length of the acoustic wave is comparable with the dimensions of the air gap. Damping and spring forces are calculated both numerically and analytically from the linearized 2D Navier-Stokes equations. In addition to the low frequency region of inertialess gas, where the use of the Reynolds equation is limited, the new model considers several additional phenomena. These are the inertia of the gas, the transition from isothermal to adiabatic conditions, and the gap resonances at frequencies where the acoustic wavelength is comparable to the air gap height. Velocity and temperature slip conditions are considered to make the model valid in micromechan...
An improved theoretical approach is proposed to predict the dynamic behavior of long, slender and fl...
This paper reports analytical modeling and finite element analysis (FEA) of the effect of two types ...
Squeeze-film damping on microresonators is a significant damping source even when the surrounding ga...
Damping in air gaps is studied at RF frequencies and modelled with a viscoelastic wave propagation m...
We introduce an analytical model for the gas damping of a MEMS resonator in the regime of free molec...
We propose a formulation for modeling the squeeze film air damping in micro-plates typical of micro-...
We report on finite element (FE) modeling and simulation of effect of squeeze-film damping on flexib...
Abstract Dynamic performance has long been critical for micro-electro-mechanical system (MEMS) devic...
The Reynolds equation coupled with an effective viscosity model is often employed to predict squeeze...
Many MEMS devices employ parallel plates for capacitive sensing and actuation. The desire to get a s...
Evaluation of squeezed film air damping is critical in the design and control of dynamic MEMS device...
Micro resonators have been extensively applied in MEMS industry over the past recent three decades. ...
Except for MEMS working in ultra high vacuum, the main cause of damping is the air surrounding the s...
We present a comprehensive analytical model of squeeze-film damping in perforated 3-D microelectrome...
Correct modelling of damping is essential to capture the dynamic behaviour of a MEMS device. Our int...
An improved theoretical approach is proposed to predict the dynamic behavior of long, slender and fl...
This paper reports analytical modeling and finite element analysis (FEA) of the effect of two types ...
Squeeze-film damping on microresonators is a significant damping source even when the surrounding ga...
Damping in air gaps is studied at RF frequencies and modelled with a viscoelastic wave propagation m...
We introduce an analytical model for the gas damping of a MEMS resonator in the regime of free molec...
We propose a formulation for modeling the squeeze film air damping in micro-plates typical of micro-...
We report on finite element (FE) modeling and simulation of effect of squeeze-film damping on flexib...
Abstract Dynamic performance has long been critical for micro-electro-mechanical system (MEMS) devic...
The Reynolds equation coupled with an effective viscosity model is often employed to predict squeeze...
Many MEMS devices employ parallel plates for capacitive sensing and actuation. The desire to get a s...
Evaluation of squeezed film air damping is critical in the design and control of dynamic MEMS device...
Micro resonators have been extensively applied in MEMS industry over the past recent three decades. ...
Except for MEMS working in ultra high vacuum, the main cause of damping is the air surrounding the s...
We present a comprehensive analytical model of squeeze-film damping in perforated 3-D microelectrome...
Correct modelling of damping is essential to capture the dynamic behaviour of a MEMS device. Our int...
An improved theoretical approach is proposed to predict the dynamic behavior of long, slender and fl...
This paper reports analytical modeling and finite element analysis (FEA) of the effect of two types ...
Squeeze-film damping on microresonators is a significant damping source even when the surrounding ga...