Nonlinear modeling and torsional vibration analysis of heavy-duty vehicle powertrain system during acceleration

IF 2.1 4区 工程技术 Advances in Mechanical Engineering Pub Date : 2024-07-26 DOI:10.1177/16878132241263936
Junlong Qu, Wenku Shi, Zhiyong Chen, Renfei Yuan, Jian Liu, Yanyan Zhao, Niancheng Guo
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Abstract

The vehicle acceleration process is often accompanied by torsional vibration of the powertrain system. Poor torsional vibration performance significantly influences the driving comfort of the vehicle and the reliability of powertrain components. Compared to passenger cars, commercial vehicles, especially the heavy-duty truck, exhibit more complicated vibration behaviors during acceleration due to the multiple power branches, various gears, and different working conditions. This article presents systematic research on the modeling method, vibration characteristics, mechanism, and influence factors of the torsional resonance of the heavy-duty vehicle during acceleration. A 16-DOF powertrain model considering multiple nonlinearities of the system is proposed and experimentally validated reliable. Numerical and experimental studies are carried out to investigate the vibration characteristics and mechanism of the heavy-duty vehicle powertrain, and the modal energies and parameter influences are also discussed. Besides, an optimization example is presented to analyze the potential vibration attenuation performance of optimizing the clutch parameters. The results indicate that the overall powertrain mode of the heavy-duty vehicle tends to be aroused by the engine firing frequency during accelerating, inducing violent speed fluctuations of the powertrain components between the clutch and half-shafts. The clutch parameters have significant impacts on the powertrain resonance, and the vibration amplitude of the powertrain system can be effectively attenuated to acceptable levels by optimally designing the clutch parameters.
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重型车辆动力总成系统加速时的非线性建模和扭转振动分析
车辆加速过程通常伴随着动力总成系统的扭转振动。扭振性能不佳会严重影响车辆的驾驶舒适性和动力总成部件的可靠性。与乘用车相比,商用车,尤其是重型卡车,由于具有多个动力分支、多个档位以及不同的工作条件,在加速过程中表现出更为复杂的振动行为。本文对重型车辆加速时扭转共振的建模方法、振动特性、机理和影响因素进行了系统研究。提出了考虑系统多重非线性的 16-DOF 动力总成模型,并进行了可靠的实验验证。通过数值和实验研究了重型车辆动力总成的振动特性和机理,并讨论了模态能量和参数影响因素。此外,还以优化实例分析了优化离合器参数的潜在振动衰减性能。结果表明,重型车辆的整体动力总成模态往往在加速过程中被发动机的点火频率所激发,从而诱发离合器和半轴之间的动力总成部件产生剧烈的速度波动。离合器参数对动力总成共振有重大影响,通过优化设计离合器参数,可以有效地将动力总成系统的振动振幅减弱到可接受的水平。
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来源期刊
Advances in Mechanical Engineering
Advances in Mechanical Engineering Engineering-Mechanical Engineering
自引率
4.80%
发文量
353
期刊介绍: Advances in Mechanical Engineering (AIME) is a JCR Ranked, peer-reviewed, open access journal which publishes a wide range of original research and review articles. The journal Editorial Board welcomes manuscripts in both fundamental and applied research areas, and encourages submissions which contribute novel and innovative insights to the field of mechanical engineering
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