Concept and model of eddy current damper for vibration suppression of a beam

阻尼器 振动 磁阻尼 涡流 导线 磁铁 阻尼转矩 磁场 洛伦兹力 涡流制动器 电磁场 机制(生物学) 物理 横截面 机械 声学 工程类 结构工程 梁(结构) 材料科学 机械工程 电气工程 电压 感应电动机 光学 直接转矩控制 复合材料 量子力学
作者
Henry A. Sodano,Jae‐Sung Bae,Daniel J. Inman,W. Keith Belvin
出处
期刊:Journal of Sound and Vibration [Elsevier BV]
卷期号:288 (4-5): 1177-1196 被引量:207
标识
DOI:10.1016/j.jsv.2005.01.016
摘要

Electromagnetic forces are generated by the movement of a conductor through a stationary magnetic field or a time varying magnetic field through a stationary conductor and can be used to suppress the vibrations of a flexible structure. In the present study, a new electromagnetic damping mechanism is introduced. This mechanism is different from previously developed electromagnetic braking systems and eddy current dampers because the system investigated in the subsequent manuscript uses the radial magnetic flux to generate the electromagnetic damping force rather than the flux perpendicular to the magnet's face as done in other studies. One important advantage of the proposed mechanism is that it is simple and easy to apply. Additionally, a single magnet can be used to damp the transverse vibrations that are present in many structures. Furthermore, it does not require any electronic devices or external power supplies, therefore functioning as a non-contacting passive damper. A theoretical model of the system is derived using electromagnetic theory enabling us to estimate the electromagnetic damping force induced on the structure. The proposed eddy current damper was constructed and experiments were performed to verify the precision of the theoretical model. It is found that the proposed eddy current damping mechanism could increase the damping ratio by up to 150 times and provide sufficient damping force to quickly suppress the beam's vibration.

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