Multi-Flexible-Body Modeling and Transient Dynamics of Frictional Squeal in a Pin-on-Disc System Based on ADAMS Software

Zhang Lijun;Wang Shizhong;Qian Min;Yu Zhuoping;

Journal of Vibration and Shock ›› 2013, Vol. 32 ›› Issue (14) : 180-184.

PDF(1983 KB)
PDF(1983 KB)
Journal of Vibration and Shock ›› 2013, Vol. 32 ›› Issue (14) : 180-184.
论文

Multi-Flexible-Body Modeling and Transient Dynamics of Frictional Squeal in a Pin-on-Disc System Based on ADAMS Software

  • Zhang Lijun1,2, Wang Shizhong1,2, Qian Min1,2, Yu Zhuoping1,2
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Abstract

To understand the generation mechanism and key factors of high frequency frictional squeal, a multi-flexible-body model of pin-on-disc system was established, by using HYPERWORKS and ADAMS based on FEM and MBS theories. The model was validated by rig test of the modeled pin-on-disc system. The impact of normal load ,friction coefficient and pin length on squeal was analyzed, it was found that, the squeal occurs only when the normal load, friction coefficient and pin length lies within certain range.

Key words

pin-on-disc system / Frictional squeal / multi-flexible body theory / mode coupling

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Zhang Lijun;Wang Shizhong;Qian Min;Yu Zhuoping;. Multi-Flexible-Body Modeling and Transient Dynamics of Frictional Squeal in a Pin-on-Disc System Based on ADAMS Software[J]. Journal of Vibration and Shock, 2013, 32(14): 180-184
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