Identification of Characteristic Tire Parameters for the Virtual Steering System Design

IF 0.9 Q4 ENGINEERING, MECHANICAL

Tire Science and Technology Pub Date : 2022-08-24 DOI:10.2346/tire.22.22002

Dominic Neumann, Mustaba Ahmadi, M. Weinberger, D. Schramm

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引用次数: 0

Abstract

The virtual design of steering systems requires suitable premises for predicting realistic steering rack forces. This includes the proper tire used for the parking maneuver. It is important to select the tire from a portfolio that generates the highest rack forces at the vehicle, so that the electro-mechanical dimensioning of the steering system can be safeguarded for all tires of a vehicle. To avoid time-consuming and expensive full vehicle measurements, drilling torques of tires are measured on a Flat-Trac to determine the so-called worst-case tire. However, the determined drilling torques do not correlate with the measured rack forces. This work therefore investigates the suitability of a Kinematics & Compliance test rig converted to a tire test rig. First, it is investigated whether the wheel movements from the parking maneuver can be decomposed into their individual elements on the test bench. In addition, reproducibility studies are carried out and three different methods for determining the aligning torque under camber are presented. Furthermore, measurements for static and dynamic friction values, as well as stiffnesses and the contact patch, are integrated into the new measurement procedure. It becomes apparent that temperature and wear level of the tire play a major role in the reproducibility of the measurements. If the measurement procedure described in this paper is followed exactly, the scatter of the drilling torque can be reduced by up to 24% compared to the old procedure. For the dynamic and the static friction values, the scatter is reduced by about 17% and 22%, respectively. Stiffness scatter can be reduced by up to 16%. With the new measurement procedure, the worst-case tire can be reliably determined. The drilling torques correlate with the rack forces and the additional tire characteristics permit finer resolution. After evaluation and interpretation, recommendations for future developments are discussed.

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虚拟转向系统设计中轮胎特征参数的识别

转向系统的虚拟设计需要合适的前提来预测现实的转向齿条力。这包括适当的轮胎用于停车机动。重要的是要从产生最高机架力的轮胎组合中选择轮胎，以便保证车辆所有轮胎的转向系统的机电尺寸。为了避免耗时和昂贵的全车测量，在Flat-Trac上测量轮胎的钻孔扭矩，以确定所谓的最坏情况轮胎。然而，确定的钻孔扭矩与测量的齿条力不相关。因此，这项工作调查了运动学与顺应性试验台转换为轮胎试验台的适用性。首先，研究了在试验台架上，泊车机动的车轮运动是否可以分解为它们各自的元素。此外，还进行了可重复性研究，并提出了三种不同的方法来确定弯曲下的对准力矩。此外，测量静态和动态摩擦值，以及刚度和接触片，被集成到新的测量程序中。很明显，轮胎的温度和磨损程度对测量结果的再现性起着重要作用。如果严格遵循本文描述的测量程序，与旧程序相比，钻井扭矩的分散可减少高达24%。对于动摩擦和静摩擦值，散射分别减小了约17%和22%。刚度散射可以减少高达16%。采用新的测量方法，可以可靠地确定最坏情况下的轮胎。钻孔扭矩与齿条力和附加的轮胎特性相关，允许更精细的分辨率。在评价和解释之后，讨论了对未来发展的建议。

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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来源期刊

Tire Science and Technology ENGINEERING, MECHANICAL-

CiteScore

2.10

自引率

0.00%

发文量

期刊介绍： Tire Science and Technology is the world"s leading technical journal dedicated to tires. The Editor publishes original contributions that address the development and application of experimental, analytical, or computational science in which the tire figures prominently. Review papers may also be published. The journal aims to assure its readers authoritative, critically reviewed articles and the authors accessibility of their work in the permanent literature. The journal is published quarterly by the Tire Society, Inc., an Ohio not-for-profit corporation whose objective is to increase and disseminate knowledge of the science and technology of tires.