Friction Sound Generated in Rubbing of a Ball on Unidirectional Asperity Surface

2021 International Conference on Computer System, Information Technology, and Electrical Engineering (COSITE) Pub Date : 2021-10-20 DOI:10.1109/COSITE52651.2021.9649615

Z. Fuadi, Miki Hiroyuki, K. Adachi

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引用次数: 0

Abstract

Micro impacts between asperities on a contact interface are the sources of sound generated in rubbing contact, particularity at low load. Since the asperities are highly random, the quality and the quantity of the generated sound are generally related to roughness parameters such as Ra. In this study, a contact surface that has uniform periodic asperities was used to investigate the characteristic of the sound produced by asperity impact. The results show that the peak frequency of generated sound corresponds to the structural principle frequency of the asperity, i.e. the peak frequency of the sound corresponds to the peak frequencies of the normal and tangential acceleration of the structure. It is revealed that the peak frequency of generated sound in the rubbing is related to one of the principle frequencies of the asperity excited by the impact during sliding. These results suggest that control of the friction sound, particularly in low contact load, could be done by controlling the shape and the dimension of the asperities.

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球在单向粗糙表面摩擦时产生的摩擦声

接触界面上凸起之间的微冲击是摩擦接触时产生声音的来源，特别是在低载荷下。由于粗糙度具有高度随机性，因此产生的声音的质量和数量通常与粗糙度参数(如Ra)有关。在本研究中，使用具有均匀周期性凹凸不平的接触面来研究凹凸不平撞击产生的声音特性。结果表明:声的峰值频率与结构的主频率相对应，即声的峰值频率与结构的法向加速度和切向加速度的峰值频率相对应。结果表明，摩擦声的峰值频率与滑动过程中冲击激发的粗糙体的一个主频率有关。这些结果表明，控制摩擦声，特别是在低接触载荷下，可以通过控制凹凸不平的形状和尺寸来实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 International Conference on Computer System, Information Technology, and Electrical Engineering (COSITE)

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