Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic

Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic

Electrorheological (ER) fluids, discovered in 1947 by W. WINSLOW, are concentrated suspensions of solid particles in an oily base liquid. Exposed to a strong electric field, their resistance to flow increases very greatly and this change is progressive, reversible and occurs very rapidly. Nowadays,...

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Bibliographic Details
Main Authors: Benjamin Pecheux, Olivier Bonneau, Jean Frêne
Format: Article
Language:English
Published: Hindawi Limited 1997-01-01
Series:International Journal of Rotating Machinery
Subjects:
Squeeze Film Damper
Active Control
Electrorheological Technology
Non Linear Behavior.
Online Access:http://dx.doi.org/10.1155/S1023621X97000067
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spelling doaj-2da4d22babd94167bc05a162865eeef62020-11-24T23:18:45ZengHindawi LimitedInternational Journal of Rotating Machinery1023-621X1997-01-0131536010.1155/S1023621X97000067Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor DynamicBenjamin Pecheux0Olivier Bonneau1Jean Frêne2Laboratoire de Mécanique Des Solides SP2MI—Bd 3, Téléport 2-BP 179- 86960, FUTUROSCOPE, Cedex, FranceLaboratoire de Mécanique Des Solides SP2MI—Bd 3, Téléport 2-BP 179- 86960, FUTUROSCOPE, Cedex, FranceLaboratoire de Mécanique Des Solides SP2MI—Bd 3, Téléport 2-BP 179- 86960, FUTUROSCOPE, Cedex, FranceElectrorheological (ER) fluids, discovered in 1947 by W. WINSLOW, are concentrated suspensions of solid particles in an oily base liquid. Exposed to a strong electric field, their resistance to flow increases very greatly and this change is progressive, reversible and occurs very rapidly. Nowadays, ER fluids, made of lithium salt and fluorosilicon got rid of their old abrasive characteristics and are able to provide a good interface between electronics and mechanical components. A bibliographical study on ER fluids and ER technology has been carried out. The aim of this study is adapting ER technology to Squeeze Film Damper. In order to provide an active control on a flexible rotating shaft so as to command the whole shaft/bearings device in case of high rotating speed or heavy load trouble. Results of numerical computation of a shaft bearing assembly with a Squeeze Film Damper using negative ER fluid are showed in order to see the possibility of avoiding critical speeds by natural frequency shifting. A technical study of ER Squeeze Film Damper design is also presented, taking into account ER fluid properties and ER technology requirements.http://dx.doi.org/10.1155/S1023621X97000067Squeeze Film DamperActive ControlElectrorheological TechnologyNon Linear Behavior.
collection DOAJ
language English
format Article
sources DOAJ
author Benjamin Pecheux
Olivier Bonneau
Jean Frêne
spellingShingle Benjamin Pecheux
Olivier Bonneau
Jean Frêne
Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic
International Journal of Rotating Machinery
Squeeze Film Damper
Active Control
Electrorheological Technology
Non Linear Behavior.
author_facet Benjamin Pecheux
Olivier Bonneau
Jean Frêne
author_sort Benjamin Pecheux
title Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic
title_short Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic
title_full Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic
title_fullStr Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic
title_full_unstemmed Investigation about Electrorheological Squeeze Film Damper Applied to Active Control of Rotor Dynamic
title_sort investigation about electrorheological squeeze film damper applied to active control of rotor dynamic
publisher Hindawi Limited
series International Journal of Rotating Machinery
issn 1023-621X
publishDate 1997-01-01
description Electrorheological (ER) fluids, discovered in 1947 by W. WINSLOW, are concentrated suspensions of solid particles in an oily base liquid. Exposed to a strong electric field, their resistance to flow increases very greatly and this change is progressive, reversible and occurs very rapidly. Nowadays, ER fluids, made of lithium salt and fluorosilicon got rid of their old abrasive characteristics and are able to provide a good interface between electronics and mechanical components. A bibliographical study on ER fluids and ER technology has been carried out. The aim of this study is adapting ER technology to Squeeze Film Damper. In order to provide an active control on a flexible rotating shaft so as to command the whole shaft/bearings device in case of high rotating speed or heavy load trouble. Results of numerical computation of a shaft bearing assembly with a Squeeze Film Damper using negative ER fluid are showed in order to see the possibility of avoiding critical speeds by natural frequency shifting. A technical study of ER Squeeze Film Damper design is also presented, taking into account ER fluid properties and ER technology requirements.
topic Squeeze Film Damper
Active Control
Electrorheological Technology
Non Linear Behavior.
url http://dx.doi.org/10.1155/S1023621X97000067
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AT olivierbonneau investigationaboutelectrorheologicalsqueezefilmdamperappliedtoactivecontrolofrotordynamic
AT jeanfrene investigationaboutelectrorheologicalsqueezefilmdamperappliedtoactivecontrolofrotordynamic
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