Driveline System Effects on Powertrain Mounting Optimization for Vibration Isolation under Actual Vehicle Conditions

IF 0.6 Q4 TRANSPORTATION SCIENCE & TECHNOLOGY
Jitender Singh, Amitabh Sarna, Navin Kumar, Vikas Sharma
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引用次数: 0

Abstract

Vehicle vibration is the key consideration in the early stage of vehicle development. The most dynamic system in a vehicle is the powertrain system, which is a source of various frequency vibration inputs to the vehicle. Mostly for powertrain mounting system design, only the uncoupled powertrain system is considered. However, in real situations, other subsystems are also attached to the powertrain unit. Thereby, assuming only the powertrain unit ignores the dynamic interactions among the powertrain and other systems. To address this shortcoming, a coupled powertrain and driveline mounting system problem is formulated and examined. This 16 DOF problem is constructed around a case of a front engine-based powertrain unit attached to the driveline system, which as an assembly resting on other systems such as chassis, suspensions, axles, and tires. First, the effect of a driveline on torque roll axis and other rigid body modes decoupling is examined analytically in terms of eigensolutions and frequency responses. It is observed from the analysis that when the optimized uncoupled powertrain system is introduced in real vehicle conditions, the vibration isolation level of the powertrain mountings gets degraded. Then, a new improved approach of considering coupled powertrain and driveline systems in the initial design phase itself is proposed. The mounting system parameters such as mount location, mount orientation angle, and stiffness rate are optimized and redesigned for the proposed system. The results of the redesigned system show that the decoupling of the rigid body mode parameters is improved and consequently powertrain vibration performance is also improved in static and dynamic conditions of the vehicle. Overall, the findings of this study suggest that considering the driveline along with the powertrain as a coupled system at the early phase of the mounting system design itself improves the vibration performance of the vehicle during real-life situations.
实际车辆条件下传动系统对动力总成悬置隔振优化的影响
车辆振动是车辆开发初期的关键考虑因素。车辆中最动态的系统是动力系统,它是车辆各种频率振动输入的来源。对于动力总成安装系统的设计,大多只考虑未耦合的动力总成系统。然而,在实际情况下,其他子系统也连接到动力总成单元。因此,假设只有动力系单元忽略了动力系和其他系统之间的动态相互作用。为了解决这一缺点,提出并研究了动力传动系和传动系安装系统的耦合问题。这个16自由度的问题是围绕一个连接到动力传动系统的基于前置发动机的动力传动系统单元的情况构建的,该动力传动系统作为一个组件放置在其他系统上,如底盘、悬架、车轴和轮胎。首先,从本征解和频率响应的角度分析了传动系统对扭矩-滚动轴和其他刚体模态解耦的影响。从分析中可以看出,当在实际车辆条件下引入优化的非耦合动力总成系统时,动力总成支座的隔振水平会降低。然后,提出了一种在初始设计阶段考虑动力传动系统和动力传动系统耦合的新的改进方法。针对所提出的系统,对安装位置、安装方位角和刚度率等安装系统参数进行了优化和重新设计。重新设计的系统的结果表明,在车辆的静态和动态条件下,刚体模态参数的解耦得到了改善,从而动力系统的振动性能也得到了改善。总的来说,这项研究的结果表明,在安装系统设计的早期阶段,将动力传动系统和动力传动系统视为一个耦合系统,可以提高车辆在实际情况下的振动性能。
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来源期刊
SAE International Journal of Commercial Vehicles
SAE International Journal of Commercial Vehicles TRANSPORTATION SCIENCE & TECHNOLOGY-
CiteScore
1.80
自引率
0.00%
发文量
25
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