Research on the influence of spring stiffness on the electrorheological isolator

Zhen Hua Zhang; Juan Wang; Shao Hua Zhang

Research on the influence of spring stiffness on the electrorheological isolator

Zhen Hua Zhang^*, Juan Wang, Shao Hua Zhang

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The problem of electrorheological (ER) technology's application in the vibration isolation system is emphatically studied. Based on the particular characteristics of the electrorheological fluid (ERF) tunable damping, a metal-spring ER isolator is designed and its working principle is mainly discussed. By theoretical analysis of its simplified physical model, the dynamic response of an ER isolator is sensitive to the system equivalent spring stiffness K and ERF damping coefficient C. According to the dynamic performance tests, the result confirms that applying different electric field strength can change the dynamic peculiarity of the metal-spring ER isolator. The configuration design parameters of the ER equipment, such as the stiffness ratio of two fluid chambers and the size of the electric field, are important factors for the tunable range of ER isolator.

Original language	English
Pages (from-to)	409-413
Number of pages	5
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	16
Issue number	4
Publication status	Published - Dec 2007

Keywords

Electrorheology
Isolator
Stiffness ration
Vibration control

Cite this

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title = "Research on the influence of spring stiffness on the electrorheological isolator",

abstract = "The problem of electrorheological (ER) technology's application in the vibration isolation system is emphatically studied. Based on the particular characteristics of the electrorheological fluid (ERF) tunable damping, a metal-spring ER isolator is designed and its working principle is mainly discussed. By theoretical analysis of its simplified physical model, the dynamic response of an ER isolator is sensitive to the system equivalent spring stiffness K and ERF damping coefficient C. According to the dynamic performance tests, the result confirms that applying different electric field strength can change the dynamic peculiarity of the metal-spring ER isolator. The configuration design parameters of the ER equipment, such as the stiffness ratio of two fluid chambers and the size of the electric field, are important factors for the tunable range of ER isolator.",

keywords = "Electrorheology, Isolator, Stiffness ration, Vibration control",

author = "Zhang, {Zhen Hua} and Juan Wang and Zhang, {Shao Hua}",

year = "2007",

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pages = "409--413",

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TY - JOUR

T1 - Research on the influence of spring stiffness on the electrorheological isolator

AU - Zhang, Zhen Hua

AU - Wang, Juan

AU - Zhang, Shao Hua

PY - 2007/12

Y1 - 2007/12

N2 - The problem of electrorheological (ER) technology's application in the vibration isolation system is emphatically studied. Based on the particular characteristics of the electrorheological fluid (ERF) tunable damping, a metal-spring ER isolator is designed and its working principle is mainly discussed. By theoretical analysis of its simplified physical model, the dynamic response of an ER isolator is sensitive to the system equivalent spring stiffness K and ERF damping coefficient C. According to the dynamic performance tests, the result confirms that applying different electric field strength can change the dynamic peculiarity of the metal-spring ER isolator. The configuration design parameters of the ER equipment, such as the stiffness ratio of two fluid chambers and the size of the electric field, are important factors for the tunable range of ER isolator.

AB - The problem of electrorheological (ER) technology's application in the vibration isolation system is emphatically studied. Based on the particular characteristics of the electrorheological fluid (ERF) tunable damping, a metal-spring ER isolator is designed and its working principle is mainly discussed. By theoretical analysis of its simplified physical model, the dynamic response of an ER isolator is sensitive to the system equivalent spring stiffness K and ERF damping coefficient C. According to the dynamic performance tests, the result confirms that applying different electric field strength can change the dynamic peculiarity of the metal-spring ER isolator. The configuration design parameters of the ER equipment, such as the stiffness ratio of two fluid chambers and the size of the electric field, are important factors for the tunable range of ER isolator.

KW - Electrorheology

KW - Isolator

KW - Stiffness ration

KW - Vibration control

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SN - 1004-0579

VL - 16

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JO - Journal of Beijing Institute of Technology (English Edition)

JF - Journal of Beijing Institute of Technology (English Edition)

IS - 4

ER -

Research on the influence of spring stiffness on the electrorheological isolator

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