Dynamic response analysis of a planetary gear with tooth tip chipping fault
ID:68 View Protection:ATTENDEE Updated Time:2021-08-25 11:10:21 Hits:350 Poster Presentation

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Abstract
The planetary gear system has the advantages of a large transmission ratio and high transmission efficiency, and is widely used in various mechanical systems. Complicated working conditions and harsh working environments often cause gear failures. The floating set of the sun gear gives rise to the changes in the pressure angle, overlap ratio, and meshing phase during the operation, which makes the vibration signal complex. To reveal the generation mechanism of fault signal, an evaluation model of time-varying meshing stiffness for both internal gear and external gear with tooth tip chipping fault is proposed in this paper. At the same time, considering the time-varying meshing characteristics caused by the sun gear floating set, a new dynamic model of planetary gear system is established. Based on this model, the dynamic response laws of the system with internal and external gear failures are analyzed respectively and the influence laws of the failure severity on the response are discussed in the meantime. By comparing with the health system, the dynamic characteristics and modulation laws of the faulty system under different working conditions are analyzed. This study can provide a reference for the fault diagnosis of the planetary gear transmission system.
Keywords
planetary gear system; time-varying meshing stiffness; tooth tip chipping fault; dynamic response; modulation
Speaker
Dong Zhen
Hebei University of Technology

Submission Author
Yinghui Liu Hebei University of Technology
Jirui Zhu Hebei University of Technology
Dong Zhen Hebei University of Technology
Hao Zhang Hebei University of Technology
Zhanqun Shi Hebei University of Technology
Fengshou Gu University of Huddersfield
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  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

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