Dynamic Characterization of MR Fluid-Based Dynamic Vibration Absorber

被引:0
作者
Mahadev B. Kumbhar
Ramchandra G. Desavale
Surajkumar G. Kumbhar
机构
[1] Department of Technology,Mechanical Engineering Department
[2] Rajarambapu Institute of Technology, Mechanical Engineering Department
[3] Rajaramnagar, Automobile Engineering Department
[4] Sakharale,undefined
[5] Rajarambapu Institute of Technology,undefined
[6] Rajaramnagar,undefined
[7] Sakharale,undefined
来源
Arabian Journal for Science and Engineering | 2023年 / 48卷
关键词
MR damper; Vibration control; Modeling and simulation; Dynamic vibration absorber;
D O I
暂无
中图分类号
学科分类号
摘要
A magnetorheological (MR) damper is effective and economical for miscellaneous applications in automotive, mechanical, civil, and relative fields. A parameter tuning methodology independent of manual trial-and-error has received much technical interest for controlling vibrations. The present work contributes mathematical and Simulink modeling followed by MR damper design and development for vibration optimization of the single degree of freedom system. A Simulink model of an MR damper is performed on the mathematical model for vibration control, and the MR damper’s tuning parameters are experimentally investigated to control the resonance frequency. Theoretical simulated results and its experimental verification show that increasing current raises the force to control the resonance frequency in an MR damper. The present approach provides a concise and improved platform for dynamic vibration absorber in the current potential market and the highly interested control community for the development of the distinctive attributes of the MR Damper.
引用
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页码:11363 / 11377
页数:14
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