International Journal of Vehicle Structures and Systems

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Experimental Evaluation of Magnetorheological Damper Characteristics for Vibration Analysis


Affiliations
1 Dept. of Aeronautical Engg., Bharath Institute of Higher Education and Research, Chennai, India
 

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Magnetorheological (MR) fluid damper has been designed, fabricated and tested to find the stiffness and damping characteristics. Experimentally the MR damper has been tested to analyse the behaviour of MR fluid as well as to obtain the stiffness for varying magnetic field. MR damper mathematical model has been developed for evaluating dynamic response for experimentally obtained parameters. The experimental results show that the increase of applied electric current in the MR damper, the damping force will increase remarkably up to the saturation value of current. The numerical simulation results that stiffness of the MR damper can be varied with the current value and increase the damping forces with the reduced amplitude of excitation. Experimental and theoretical results of the MR damper characteristics demonstrate that the developed MR damper can be used for vibration isolation and suppression.

Keywords

Magnetorheological Fluid Damper, Stiffness, Damping Force, Semi Active, Vibration.
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  • Experimental Evaluation of Magnetorheological Damper Characteristics for Vibration Analysis

Abstract Views: 210  |  PDF Views: 106

Authors

S. Siva Kumar
Dept. of Aeronautical Engg., Bharath Institute of Higher Education and Research, Chennai, India
K. S. Raj Kumar
Dept. of Aeronautical Engg., Bharath Institute of Higher Education and Research, Chennai, India
Navaneet Kumar
Dept. of Aeronautical Engg., Bharath Institute of Higher Education and Research, Chennai, India

Abstract


Magnetorheological (MR) fluid damper has been designed, fabricated and tested to find the stiffness and damping characteristics. Experimentally the MR damper has been tested to analyse the behaviour of MR fluid as well as to obtain the stiffness for varying magnetic field. MR damper mathematical model has been developed for evaluating dynamic response for experimentally obtained parameters. The experimental results show that the increase of applied electric current in the MR damper, the damping force will increase remarkably up to the saturation value of current. The numerical simulation results that stiffness of the MR damper can be varied with the current value and increase the damping forces with the reduced amplitude of excitation. Experimental and theoretical results of the MR damper characteristics demonstrate that the developed MR damper can be used for vibration isolation and suppression.

Keywords


Magnetorheological Fluid Damper, Stiffness, Damping Force, Semi Active, Vibration.



DOI: https://doi.org/10.4273/ijvss.10.1.07