مرکز منطقه ای اطلاع رساني علوم و فناوري - Simulation of gas damping in microstructures with nontrivial geometries

DocumentCode :

3013528

Title :

Simulation of gas damping in microstructures with nontrivial geometries

Author :

Mehner, J. ; Kurth, S. ; Billep, D. ; Kaufmann, C. ; Kehr, K. ; Dötzel, W.

Author_Institution :

Fac. of Electr. Eng. & Inf. Technol., Tech. Univ. Chemnitz, Germany

fYear :

1998

fDate :

25-29 Jan 1998

Firstpage :

172

Lastpage :

177

Abstract :

Methods to calculate the fluid depending forces in movable micromechanical structures will be shown in this paper. In most cases fluid flow within narrow air gaps can be simply described by the Reynolds gas film equation. Analytical solutions are known for simple plate shapes. New ways to describe the damping and squeeze film effect for nontrivial plate shapes using analogy relations are discussed. Reynolds equation fails in the case of large air gaps between plates or if free outstream conditions are not valid. In these cases the general Navier-Stokes-Equation must be used. FE-tools with fluidmechanical capabilities are able to solve this partial differential equation and allow a damping analysis. Phase shift between plates velocity and reaction forces can be interpreted as additional inertial or squeeze forces. Results of simulation and experimental analysis are verified on a gyroscope and a micromirror array

Keywords :

Navier-Stokes equations; damping; finite element analysis; fluid oscillations; micromechanical devices; partial differential equations; structural engineering computing; FE-tools; Navier-Stokes-equation; Reynolds equation; Reynolds gas film equation; analogy relations; damping; damping analysis; experimental analysis; gas damping; gyroscope; inertial forces; micromechanical structures; micromirror array; microstructures; nontrivial geometries; nontrivial plate shapes; partial differential equation; phase shift; simulation; squeeze film effect; squeeze forces; Air gaps; Analytical models; Damping; Fluid flow; Gyroscopes; Micromechanical devices; Microstructure; Navier-Stokes equations; Partial differential equations; Shape;

fLanguage :

English

Publisher :

ieee

Conference_Titel :

Micro Electro Mechanical Systems, 1998. MEMS 98. Proceedings., The Eleventh Annual International Workshop on

Conference_Location :

Heidelberg

ISSN :

1084-6999

Print_ISBN :

0-7803-4412-X

Type :

conf

DOI :

10.1109/MEMSYS.1998.659749

Filename :

659749

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=3013528