Damping performance of particle dampers with different granular materials and their mixtures

•Experimental study of particle damper materials on vibration attenuation.•Detailed investigation for damping performance of 20 different granular materials and their mixtures with special focus on the required additional mass.•Damping efficiency comparison of several soft and hard granular material...

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Veröffentlicht in:Applied acoustics 2022-11, Vol.200, p.109059, Article 109059
Hauptverfasser: Prasad, Braj Bhushan, Duvigneau, Fabian, Juhre, Daniel, Woschke, Elmar
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Sprache:eng
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Zusammenfassung:•Experimental study of particle damper materials on vibration attenuation.•Detailed investigation for damping performance of 20 different granular materials and their mixtures with special focus on the required additional mass.•Damping efficiency comparison of several soft and hard granular materials, like rubber granulate, rubber powder, stone powder, lead shot, plastic balls, etc.•A hybrid particle damper is introduced in this paper.•The effects of several parameters on particle damper performance are addressed. A particle damper is a passive vibration control technology that utilizes the high damping properties of granular materials for reducing the vibration amplitude of a structure over a wide frequency range. Energy dissipation of particle damper is a highly nonlinear and complex physical phenomenon [1]. Previous studies have shown that the damping mechanism of a particle damper depends on several factors, like particle size and shape, granular material, filling ratio, and the number of particles [2–5]. Out of these parameters, the type of granular material used in the particle damper plays a major role in reducing the vibration amplitude of a mechanical structure. Therefore, the current contribution aims to investigate the influence of 20 different granular materials on vibration attenuation. The granular materials under investigation are subdivided into two major groups, namely: soft particles, like rubber granulate, and hard particles, like steel balls. Furthermore, this paper proposes a hybrid particle damper in which two different types of granular material mixtures are used, i.e. a particle damper in which for instance soft particles are mixed with hard particles. Moreover, in this contribution, fine particles, like rubber powder are mixed with hard granular materials like lead shot, which can be seen as an extension of the fine particle impact damper concept [6]. The humidity-dependent behavior of particle dampers is also another important issue, which is addressed in this paper. To investigate the vibration attenuation efficiency of all the granular materials and their mixtures including the humidity-dependent behavior, a laser scanning vibrometer device is used. Generally, the relationship between the vibration response and the granular material mass is rarely addressed in the literature, which can restrict the industrial application of particle dampers. Hence, the additional mass of the granular material is also a focus of this paper. The e
ISSN:0003-682X
1872-910X
DOI:10.1016/j.apacoust.2022.109059