Eddy Current Damping System의 진동 저감 특성 평가

Journal of the Korean Society of Mechanical Technology Pub Date : 2020-02-29 DOI:10.17958/ksmt.22.1.202002.19
안태원
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Abstract

Generally, vibration absorber systems are composed of spring-mass systems to reduce the vibration of a structure, and there are also methods to simply increase damping to achieve a damping effect across a wide frequency band. One similar method is to use a mechanism in which the eddy current is converted into a mechanical damping effect. When an eddy current is generated by electromotive force due to magnetic flux change, the reaction force is generated by the eddy current’s circulation. In this study, the damping system using the reaction force was constructed to reduce the transmission of vibrations generating from internal fluid and the vibration reduction characteristics that are transmitted externally were analyzed. As a result, 8.2 % of the vibration reduction effect from primary excitation frequency was confirmed.
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Eddy Current Damping System的减振特性评估
通常,减振器系统由弹簧-质量系统组成,以减少结构的振动,也有方法简单地增加阻尼,以实现宽频带的阻尼效果。一种类似的方法是使用一种将涡流转化为机械阻尼效应的机制。当磁通量的变化使电动势产生涡流时,涡流的循环产生反作用力。在本研究中,构建了利用反作用力的阻尼系统,以减少内部流体产生的振动的传递,并分析了外部传递的减振特性。结果表明,一次激振频率的减振效果为8.2%。
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Journal of the Korean Society of Mechanical Technology
Journal of the Korean Society of Mechanical Technology
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