Closed-form expressions for the stiffness and the damping coefficients of a squeeze film are derived for MEMS devices with perforated back plates. Two kinds of perforation configurations are considered—staggered and matrix or non-staggered configuration. The analytical solutions are motivated from the observation of repetitive pressure patterns obtained fromnumerical (FEM) solutions of the compressible Reynolds equation for the two configurations using ANSYS. A single pressure pattern is isolated and further subdivided into circular pressure cells. Circular geometry is used based on observed symmetry. Using suitable boundary conditions, the Reynolds equation is analytically solved over the pressure cells. The complex pressure obtained is us...
Abstract—We present a comprehensive analytical model of squeeze-film damping in perforated 3-D micro...
Squeeze film damping effects naturally occur if structures are subjected to loading situations such ...
We present an analytical model that gives the values of squeeze film damping and spring coefficients...
Closed-form expressions for the stiffness and the damping coefficients of a squeeze film are derived...
The squeeze-film damping in perforated structures is modelled using a modified Reynolds equation tha...
Squeeze-film effects of perforated plates for small amplitude vibration are analyzed through modifie...
Several analytical models exist for evaluating squeeze film damping in rigid rectangular perforated ...
Squeeze-film damping plays a significant role in the performance of micro-resonators because it det...
We present a comprehensive analytical model of squeeze-film damping in perforated 3-D microelectrome...
Micromechanical structures that have squeeze-film damping as the dominant energy dissipation mechani...
Evaluation of squeezed film air damping is critical in the design and control of dynamic MEMS device...
Squeeze film damping due to the air trapped between oscillating membrane structure and a fixed subst...
The reliable estimation of squeeze-film damping (SQFD) is a prerequisite for the design of many micr...
We propose a formulation for modeling the squeeze film air damping in micro-plates typical of micro-...
Many MEMS devices employ parallel plates for capacitive sensing and actuation. The desire to get a s...
Abstract—We present a comprehensive analytical model of squeeze-film damping in perforated 3-D micro...
Squeeze film damping effects naturally occur if structures are subjected to loading situations such ...
We present an analytical model that gives the values of squeeze film damping and spring coefficients...
Closed-form expressions for the stiffness and the damping coefficients of a squeeze film are derived...
The squeeze-film damping in perforated structures is modelled using a modified Reynolds equation tha...
Squeeze-film effects of perforated plates for small amplitude vibration are analyzed through modifie...
Several analytical models exist for evaluating squeeze film damping in rigid rectangular perforated ...
Squeeze-film damping plays a significant role in the performance of micro-resonators because it det...
We present a comprehensive analytical model of squeeze-film damping in perforated 3-D microelectrome...
Micromechanical structures that have squeeze-film damping as the dominant energy dissipation mechani...
Evaluation of squeezed film air damping is critical in the design and control of dynamic MEMS device...
Squeeze film damping due to the air trapped between oscillating membrane structure and a fixed subst...
The reliable estimation of squeeze-film damping (SQFD) is a prerequisite for the design of many micr...
We propose a formulation for modeling the squeeze film air damping in micro-plates typical of micro-...
Many MEMS devices employ parallel plates for capacitive sensing and actuation. The desire to get a s...
Abstract—We present a comprehensive analytical model of squeeze-film damping in perforated 3-D micro...
Squeeze film damping effects naturally occur if structures are subjected to loading situations such ...
We present an analytical model that gives the values of squeeze film damping and spring coefficients...