International Journal of Aerospace and Lightweight Structures (IJALS)

Volume 3 Number 3 (2013)

International Journal of Aerospace and Lightweight Structures

doi: 10.3850/S2010428613000032


A Novel MR Device with Variable Stiffness and Damping Capability


Shiyu Zhao1, Huaxia Deng1,a, Jin Zhang1, Liandong Yu1, Shuaishuai Sun2, Weihua Li2,b and Laijun Zhou1
1School of Instrument Science and Opto-electronics Engineering, HeFei University of Technology, Hefei, China.
ahxdeng@hfut.edu.cn
2School of Mechanical, Materials & Mechatronic Engineering, University of Wollongong, Wollongong, Australia.
bweihuali@uow.edu.au

ABSTRACT

This paper proposes a novel device based on the Magnetorheological (MR) fluid which has the capability to change stiffness and damping under control. MR fluid is a type of smart material whose properties could be controlled by the external magnetic field. Most of MR devices are MR dampers, which normally are used as variable damping devices. The presented device consists of two hydro-cylinder-spring structures and one MR valve linking these two structures. The rheological characteristics of MR fluid in the fluid flow channels of MR valve are controlled by the strength of magnetic fields, which directly affect the link conditions. The equivalent stiffness and damping coefficients of the device thus varies with the rheological characteristics of MR fluid simultaneously. A mathematical model is established to describe the properties of the proposed device based on the Bouc-wen model. The mathematical model the simulation results indicate that the proposed device can control both the stiffness and damping which has potential to be applied for restrain vibration mitigation efficiently.

Keywords: Variable stiffness and damping, MR damper, Effective stiffness and damping coefficients.



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