A Hybrid Method for Characterization and Improvement of NVH Performance of Axle System

Shanjin Wang, Constantin Gagiu
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Abstract

The axle system is a major contributor for road induced vehicle interior noise. However, it is challenging to characterize the NVH performance of the axle system because it is coupled with both the tire/wheel and the body structure. In this article, we introduce a global approach to control the NVH performance of the axle system. The force transmissibility based on the blocked force concept was defined as the indicator of NVH performance of the axle system. A hybrid method combining test and simulation was developed to assess the intrinsic NVH performance of the axle system.The force transmissibility of the axle system is the blocked force generated by the axle system at the body mounting points with a unit of input force on the wheel. It can be simulated easily by FEM with rigid boundary conditions. However, measuring the blocked forces of the axle system is much more complex because it requires very stiff boundary conditions, which are difficult to realize on a realistic test rig. Our approach involves measuring the forces at the train-body interfaces on a standard test bench with realistic boundary conditions and simulating the interface forces with models that include not only the axle parts but also the rig and mounting parts. The simulation results can be compared directly with those of measurement, making it possible to recalibrate the simulation models. Once the model of the axle system is recalibrated, it can be used to simulate the blocked forces by setting infinitely rigid boundary conditions. This hybrid method allows obtaining the blocked forces from the axle system using a standard test rig without the need to build expensive new rigs.Using this method, different axle systems can be measured and NVH performance compared. In general, the axle system has worse NVH behavior in the transverse direction than in the vertical and longitudinal directions. Consequently, to improve the NVH performance of the axle system, the priority is to treat the weakness and make improvements in the transverse direction. The definition of the force transmissibility of the axle system, together with the hybrid characterization method, allows us to control the axle NVH performance more efficiently and carry out the necessary improvements in the design at the early stage of vehicle development.
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表征和改进车桥系统 NVH 性能的混合方法
车桥系统是导致路面诱发汽车内部噪声的主要因素。然而,由于车桥系统与轮胎/车轮和车身结构耦合在一起,因此鉴定车桥系统的 NVH 性能具有挑战性。本文介绍了一种控制车桥系统 NVH 性能的全局方法。基于阻滞力概念的力传递率被定义为车桥系统 NVH 性能的指标。车桥系统的力传递率是车桥系统在车身安装点产生的阻滞力与车轮上的单位输入力。它可以通过带有刚性边界条件的有限元模型轻松模拟。然而,测量车桥系统的阻挡力要复杂得多,因为它需要非常坚硬的边界条件,而这在现实的测试平台上很难实现。我们的方法是在标准测试台上测量列车与车身接口处的力,并采用真实的边界条件,然后使用不仅包括车轴部件,还包括钻机和安装部件的模型模拟接口处的力。模拟结果可直接与测量结果进行比较,从而对模拟模型进行重新校准。重新校准车桥系统模型后,就可以通过设置无限刚性边界条件来模拟阻滞力。通过这种混合方法,可以使用标准测试设备获得车桥系统的阻滞力,而无需建造昂贵的新设备。一般来说,车桥系统在横向的 NVH 性能比在纵向和垂直方向更差。因此,要改善车桥系统的 NVH 性能,首要任务是处理横向的弱点并加以改进。车桥系统力传递率的定义以及混合表征方法使我们能够更有效地控制车桥的 NVH 性能,并在车辆开发的早期阶段对设计进行必要的改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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