Nonlinear dynamic characteristics analysis method of planetary gear train torsional vibration considering meshing oil film force

Shi Wu, Mingzhu Wang, Weidong Zhu
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Abstract

Planetary gear train is an important part of automatic transmission. The oil film between teeth is one of the key factors affecting the torsional vibration of planetary gear train. Selecting the appropriate oil film stiffness is of great significance for analyzing the nonlinear dynamic characteristics of planetary gear train. A method for analyzing the nonlinear dynamic characteristics of planetary gear system torsional vibration considering the oil film force between teeth is proposed in this paper. A 3-DOF torsional vibration model of planetary gear train considering oil film is established. In this model, the oil film between teeth is equivalent to a time-varying nonlinear spring-damper element, and nonlinear factors such as backlash and meshing error are also considered. The effects of meshing oil film thickness on oil film stiffness and damping are analyzed, and the torsional vibration characteristics of planetary gear train under different meshing stiffness, meshing damping ratio, and rotational speed are analyzed based on bifurcation diagrams. The results show that in one meshing cycle, the meshing oil film thickness first becomes larger and then becomes smaller. When the meshing oil film thickness increases, the meshing oil film stiffness and the equivalent meshing oil film damping become smaller. The torsional vibration of planetary gear train can be effectively reduced by increasing meshing stiffness, damping ratio, rotational speed within a certain range. This method provides technical support for reducing torsional vibration of planetary gear train and realizing stable transmission of planetary gear train.
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考虑啮合油膜力的行星齿轮系扭转振动非线性动态特性分析方法
行星齿轮系是自动变速器的重要组成部分。齿间油膜是影响行星齿轮系扭转振动的关键因素之一。选择合适的油膜刚度对于分析行星齿轮系的非线性动态特性具有重要意义。本文提出了一种考虑齿间油膜力的行星齿轮系扭转振动非线性动态特性分析方法。建立了考虑油膜的行星齿轮系 3-DOF 扭转振动模型。在该模型中,齿间油膜相当于一个时变非线性弹簧-阻尼元件,同时还考虑了反向间隙和啮合误差等非线性因素。分析了啮合油膜厚度对油膜刚度和阻尼的影响,并根据分岔图分析了行星齿轮系在不同啮合刚度、啮合阻尼比和转速下的扭转振动特性。结果表明,在一个啮合周期内,啮合油膜厚度先变大后变小。当啮合油膜厚度增加时,啮合油膜刚度和等效啮合油膜阻尼变小。在一定范围内提高啮合刚度、阻尼比和转速,可以有效降低行星齿轮系的扭转振动。该方法为降低行星齿轮传动系统的扭转振动,实现行星齿轮传动系统的稳定传动提供了技术支持。
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来源期刊
CiteScore
4.10
自引率
11.10%
发文量
38
审稿时长
>12 weeks
期刊介绍: The Journal of Multi-body Dynamics is a multi-disciplinary forum covering all aspects of mechanical design and dynamic analysis of multi-body systems. It is essential reading for academic and industrial research and development departments active in the mechanical design, monitoring and dynamic analysis of multi-body systems.
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