Fault mechanism and dynamic modeling of planetary gear with gear wear

•Tooth wear is analytically evaluated with archard's equation.•Tooth wear is incorporated into TVMS, USTE and gear backlash.•A torsional dynamic model is applied to evaluate the effect of tooth wear on dynamic responses. Gear wear is a typical and common early failure, which could lead to geome...

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Bibliographic Details
Published in:Mechanism and machine theory 2021-01, Vol.155, p.104098, Article 104098
Main Authors: Shen, Zhixian, Qiao, Baijie, Yang, Laihao, Luo, Wei, Yang, Zhibo, Chen, Xuefeng
Format: Article
Language:English
Subjects:
Dynamic modeling
Fault mechanism
Gear wear
Planetary gear
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Summary:•Tooth wear is analytically evaluated with archard's equation.•Tooth wear is incorporated into TVMS, USTE and gear backlash.•A torsional dynamic model is applied to evaluate the effect of tooth wear on dynamic responses. Gear wear is a typical and common early failure, which could lead to geometric deviation of tooth surface, further affecting vibration signal and transmission error. This paper is devoted to analyzing fault mechanism and dynamic characteristics of gear wear, which provides the basis for vibration-based fault diagnosis and monitoring of gear wear. For this purpose, a purely torsional dynamic model of planetary gear with gear wear is proposed where gear wear is evaluated by Archard's equation and it is incorporated into the dynamic model through time-varying mesh stiffness, unloaded static transmission error and gear backlash. Inspired by the work of Chen et al., gear wear is viewed as a kind of tooth deviation and the influence of gear wear on planetary gear dynamic parameters can be analyzed. Finally, the vibration responses of planetary gear under the effect of gear wear are analyzed.
ISSN:0094-114X
1873-3999
DOI:10.1016/j.mechmachtheory.2020.104098