RESPONSE SENSITIVITY IN A NONLINEAR PLANETARY GEAR SET

机译：非线性行星齿轮组中的响应灵敏度

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Due to the wide range of speeds of the vehicle engine, the resonance cannot be completely avoided. Aiming at this problem, the analysis of the dynamic characteristics of the vehicle transmission system is transferred from the analysis of the intrinsic characteristics to the analysis of the dynamic response, and the sensitivity analysis based on the dynamic response is derived. This study investigates dynamic response sensitivity to model parameters in a nonlinear single-stage planetary gear set coupled with lateral and torsional directions. The equations of response sensitivity are deduced with the direct method (DM) and the root mean square (RMS) method. Gear meshing is a main reason for gear vibration, so gear meshing power sensitivity to model parameters is analyzed in this paper. Also the influence of rotation speed is considered in the response sensitivity. The sensitivity characteristics make it possible to provide support for dynamic design optimization.

机译：由于车辆发动机的速度范围大，所以不能完全避免共振。针对该问题，将车辆传动系统的动态特性的分析从固有特性的分析转移到动态响应的分析，从而导出基于动态响应的灵敏度分析。这项研究调查了非线性单级行星齿轮组中横向和扭转方向对模型参数的动态响应敏感性。用直接法（DM）和均方根（RMS）法推导了响应灵敏度方程。齿轮啮合是齿轮振动的主要原因，因此本文分析了齿轮啮合功率对模型参数的敏感性。在响应灵敏度中也考虑了转速的影响。灵敏度特性可以为动态设计优化提供支持。

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《International Design Engineering Technical Conferences;Computers and Information in Engineering Conference;International Power Transmission and Gearing Conference》|2019年|V010T11A020.1-V010T11A020.6|共6页
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Zhaobin Zhan; Hui Liu; Changle Xiang; Lijin Han; Brian Feeny;
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Response sensitivity; Planetary gears; Nonlinear vibration; Gear meshing power;

机译：反应敏感度;行星齿轮;非线性振动;齿轮啮合力;

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专利

1. A nonlinear dynamic model for analysis of the combined influences of nonlinear internal excitations on the load sharing behavior of a compound planetary gear set [J] . Zhang Haibo, Wu Shijing, Peng Zeming Proceedings of the Institution of Mechanical Engineers, Part C. Journal of mechanical engineering science . 2016,第7a8期

机译：非线性动力学模型，用于分析非线性内部激励对复合行星齿轮组的负荷分担行为的综合影响
2. Analytical investigation on the effect of gear teeth faults on the dynamic response of a planetary gear set [J] . Fakher Chaari, Tahar Fakhfakh, Mohamed Haddar Noise & vibration worldwide . 2006,第8期

机译：齿轮故障对行星齿轮组动力响应影响的分析研究
3. Harmonic balance method implementation of nonlinear dynamic characteristics for compound planetary gear sets [J] . Zhu Weilin, Wu Shijing, Wang Xiaosun, Nonlinear dynamics . 2015,第3期

机译：复合行星齿轮组非线性动力特性的谐波平衡法实现
4. The Research on Natural Characteristic and Eigen sensitivity of Ravingneaux Compound Planetary Gear Sets [C] . Bo Qian, Shijing Wu International Conference on Mechanics and Control Engineering . 2014

机译：乌丁纳佐套装行星齿轮组自然特征及尖端敏感性研究
5. Three-Dimensional Nonlinear Dynamics and Vibration Reduction of Gear Pairs and Planetary Gears. [D] . Eritenel, Tugan. 2011

机译：齿轮副和行星齿轮的三维非线性动力学和减振。
6. Global Sensitivity Analysis of a Mathematical Model of Acute Inflammation Identifies Nonlinear Dependence of Cumulative Tissue Damage on Host Interleukin-6 Responses [O] . Shibin Mathew, John Bartels, Ipsita Banerjee, -1

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7. Nonlinear dynamics of planetary gear wear in multistage gear transmission system [O] . Xin Wang 2019

机译：多级齿轮传动系统行星齿轮磨损的非线性动力学
8. Investigating Vibration Properties of a Planetary Gear Set with a Cracked Tooth in a Planet Gear. [R] . Liang, X., Zuo, M. J. 2014

机译：行星齿轮中带有裂纹齿的行星齿轮组振动特性研究。

RESPONSE SENSITIVITY IN A NONLINEAR PLANETARY GEAR SET

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