Vibration Reduction on Circular Disks with Vibroacoustic Metamaterials

被引:1
作者
Riess, Sebastian [1 ]
Schmidt, Ron [1 ]
Kaal, William [1 ]
Atzrodt, Heiko [1 ]
Herold, Sven [1 ]
机构
[1] Fraunhofer Inst Struct Durabil & Syst Reliabil LBF, D-64298 Darmstadt, Germany
来源
APPLIED SCIENCES-BASEL | 2024年 / 14卷 / 11期
关键词
circular disk; vibroacoustic metamaterial; rotor dynamics; structurally integrated vibroacoustic metamaterial; saw blade; vibration reduction; BEHAVIOR;
D O I
10.3390/app14114637
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Vibroacoustic metamaterials represent an innovative technology developed for broadband vibration reduction. They consist of an array of local resonators and are able to reduce vibrations over a wide frequency range, commonly referred to as a stop band. Vibroacoustic metamaterials may be a promising strategy to reduce out-of-plane vibrations of thin-walled, disk-shaped structures, such as saw blades. However, their behavior in rotating systems has not yet been fully understood. In this study, a vibroacoustic metamaterial integrated into a circular disk for the reduction of out-of-plane vibrations is experimentally investigated in the rotating and non-rotating state. Derived from the predominant frequency range of noise emitted by saw blades, a vibroacoustic metamaterial with a numerically predicted stop band in the frequency range from 2000 Hz to 3000 Hz, suitable for integration into a circular disk, is designed. The resonators of the metamaterial are realized by cutting slots into the disk using a waterjet cutting machine. To experimentally examine the structural dynamic behavior, the disk is excited by an impulse hammer and observed by a stationary optical velocity sensor on a rotor dynamics test stand. The results of the rotating and the non-rotating state are compared. The measurements are carried out at two different radii and at speeds up to 3000 rpm. A distinct stop band characteristic is shown in the desired frequency range from 2000 Hz to 3000 Hz in the rotating and non-rotating state. No significant shift of the stop band frequency range was observed during rotation. However, adjacent modes were observed to propagate into the stop band frequency range. This work contributes to a better understanding of the behavior of vibroacoustic metamaterials in the rotating state and enables future applications of vibroacoustic metamaterials for vibration reduction in rotating, disk-shaped structures such as saw blades, brake disks or gears.
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页数:18
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