A novel method to reduce the fluctuation of mesh stiffness by high-order phasing gear sets: Theoretical analysis and experiment

•A novel high-order phasing gear is proposed to reduce the fluctuation of mesh stiffness and the key parameters of high-order phasing gear are given, which provides new ideas for gear development and vibration reduction of gear transmission.•The mesh stiffness of the high-order phasing gear pair is...

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Veröffentlicht in:Journal of sound and vibration 2022-04, Vol.524, p.116752, Article 116752
Hauptverfasser: Chen, Xiangqian, Wei, Jing, Zhang, Jiaxiong, Zhang, Chunpeng, Wang, Chang-lu, Xu, Ziyang, Gao, Hao, Zhang, Aiqiang, Yu, Guangbin
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container_start_page 116752
container_title Journal of sound and vibration
container_volume 524
creator Chen, Xiangqian
Wei, Jing
Zhang, Jiaxiong
Zhang, Chunpeng
Wang, Chang-lu
Xu, Ziyang
Gao, Hao
Zhang, Aiqiang
Yu, Guangbin
description •A novel high-order phasing gear is proposed to reduce the fluctuation of mesh stiffness and the key parameters of high-order phasing gear are given, which provides new ideas for gear development and vibration reduction of gear transmission.•The mesh stiffness of the high-order phasing gear pair is derived on the basis of the time-varying mesh stiffness of spur gear pair. And key parameters of the high-order phasing gear pair are optimized with the aim of achieving near zero fluctuation of mesh stiffness.•Effectiveness of applying high-order tuned gears to decreasing gear meshing vibration and the optimal key parameters are verified via transmission error and vibration displacement experiment. The vibration, triggered by the periodic fluctuation of time-varying mesh stiffness, is difficult to be reduced especially for the traditional spur gear transmission. In this paper, to reduce the fluctuation of mesh stiffness, a novel high-order phasing gear is proposed and verified by theoretical analysis and experiments. The contact line is studied in terms of the high-order phasing gear pair. Based on the time-varying mesh stiffness of spur gear pair, the mesh stiffness of the high-order phasing gear pair is derived. And the phasing parameters of the high-order phasing gear pair are optimized with the aim of achieving the near zero fluctuation of mesh stiffness. Moreover, it is proved that the application of the phasing gear sets effectively decreases gear meshing vibration, and the optimal staggered phase angle is verified by experiment.
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And key parameters of the high-order phasing gear pair are optimized with the aim of achieving near zero fluctuation of mesh stiffness.•Effectiveness of applying high-order tuned gears to decreasing gear meshing vibration and the optimal key parameters are verified via transmission error and vibration displacement experiment. The vibration, triggered by the periodic fluctuation of time-varying mesh stiffness, is difficult to be reduced especially for the traditional spur gear transmission. In this paper, to reduce the fluctuation of mesh stiffness, a novel high-order phasing gear is proposed and verified by theoretical analysis and experiments. The contact line is studied in terms of the high-order phasing gear pair. Based on the time-varying mesh stiffness of spur gear pair, the mesh stiffness of the high-order phasing gear pair is derived. And the phasing parameters of the high-order phasing gear pair are optimized with the aim of achieving the near zero fluctuation of mesh stiffness. Moreover, it is proved that the application of the phasing gear sets effectively decreases gear meshing vibration, and the optimal staggered phase angle is verified by experiment.</description><identifier>ISSN: 0022-460X</identifier><identifier>EISSN: 1095-8568</identifier><identifier>DOI: 10.1016/j.jsv.2022.116752</identifier><language>eng</language><publisher>Amsterdam: Elsevier Ltd</publisher><subject>Gears ; High-order phasing gear ; Near zero fluctuation ; Periodic variations ; Spur gears ; Stiffness ; Theoretical physics ; Time-varying mesh stiffness ; Vibration ; Vibration analysis ; Vibration reduction</subject><ispartof>Journal of sound and vibration, 2022-04, Vol.524, p.116752, Article 116752</ispartof><rights>2022 Elsevier Ltd</rights><rights>Copyright Elsevier Science Ltd. 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And key parameters of the high-order phasing gear pair are optimized with the aim of achieving near zero fluctuation of mesh stiffness.•Effectiveness of applying high-order tuned gears to decreasing gear meshing vibration and the optimal key parameters are verified via transmission error and vibration displacement experiment. The vibration, triggered by the periodic fluctuation of time-varying mesh stiffness, is difficult to be reduced especially for the traditional spur gear transmission. In this paper, to reduce the fluctuation of mesh stiffness, a novel high-order phasing gear is proposed and verified by theoretical analysis and experiments. The contact line is studied in terms of the high-order phasing gear pair. Based on the time-varying mesh stiffness of spur gear pair, the mesh stiffness of the high-order phasing gear pair is derived. 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And key parameters of the high-order phasing gear pair are optimized with the aim of achieving near zero fluctuation of mesh stiffness.•Effectiveness of applying high-order tuned gears to decreasing gear meshing vibration and the optimal key parameters are verified via transmission error and vibration displacement experiment. The vibration, triggered by the periodic fluctuation of time-varying mesh stiffness, is difficult to be reduced especially for the traditional spur gear transmission. In this paper, to reduce the fluctuation of mesh stiffness, a novel high-order phasing gear is proposed and verified by theoretical analysis and experiments. The contact line is studied in terms of the high-order phasing gear pair. Based on the time-varying mesh stiffness of spur gear pair, the mesh stiffness of the high-order phasing gear pair is derived. And the phasing parameters of the high-order phasing gear pair are optimized with the aim of achieving the near zero fluctuation of mesh stiffness. Moreover, it is proved that the application of the phasing gear sets effectively decreases gear meshing vibration, and the optimal staggered phase angle is verified by experiment.</abstract><cop>Amsterdam</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.jsv.2022.116752</doi></addata></record>
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source Elsevier ScienceDirect Journals
subjects Gears
High-order phasing gear
Near zero fluctuation
Periodic variations
Spur gears
Stiffness
Theoretical physics
Time-varying mesh stiffness
Vibration
Vibration analysis
Vibration reduction
title A novel method to reduce the fluctuation of mesh stiffness by high-order phasing gear sets: Theoretical analysis and experiment
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