Experimental Validation of Elliptical Contact Patch Tire Model

IF 0.9 Q4 ENGINEERING, MECHANICAL Tire Science and Technology Pub Date : 2023-04-19 DOI:10.2346/tire.23.22008
Ryota Nakanishi, M. Matsubara, Takashi Ishibashi, S. Kawamura, Daiki Tajiri
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Abstract

The influence of tires on vehicle dynamics, as the only automotive component in contact with the road surface, is significant. Mechanical models such as the Fiala model includes tire mechanical properties as parameters and are useful for tire design studies. These models assume a rectangular or trapezoidal tire contact shape, which does not always match the tire contact shape observed when slip angle is applied, leaving room for improvement in accuracy. This study proposes a new semiphysical tire model with an elliptical contact shape, termed the “elliptical contact model.” First, the expressions for the contact shape and contact pressure distributions in the elliptical contact model are formulated. Herein, we consider both the length- and width-direction distributions of the contact pressure in these expressions. Second, the formulation of the lateral shear stress distribution in the contact patch is presented based on the Fiala model, including the belt bending deformation by a lateral force and switching between the lateral shear and dynamic frictional forces. Lateral stresses proportional to the width coordinate are also introduced, enabling the calculation of lateral stresses acting in a direction counteracting each other at the widthwise edge of the tire contact surface. The model is validated by measuring a slick tire at a velocity of 100 km/h with slip angles of 0° and 3° using an Inside Drum Machine with an aluminum road segment with quartz piezoelectric sensors. Consequently, by setting appropriate model parameters, the contact pressure and lateral shear stress distribution results calculated using the model are consistent with experimental results. The accuracy of the proposed model could be further improved by revising the method of setting the static and dynamic friction coefficients.
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椭圆接触式补胎模型的实验验证
轮胎作为唯一与路面接触的汽车部件,对车辆动力学的影响是显著的。诸如Fiala模型的机械模型包括轮胎机械特性作为参数,并且对于轮胎设计研究是有用的。这些模型假设轮胎接触形状为矩形或梯形,但并不总是与应用滑移角时观察到的轮胎接触形状相匹配,从而为精度的提高留下了空间。本研究提出了一种新的椭圆接触形状的半物理轮胎模型,称为“椭圆接触模型”。首先,推导了椭圆接触模型中接触形状和接触压力分布的表达式。在此,我们在这些表达式中考虑了接触压力的长度方向和宽度方向分布。其次,基于Fiala模型,给出了接触片中横向剪切应力分布的公式,包括横向力引起的带弯曲变形以及横向剪切和动态摩擦力之间的切换。还引入了与宽度坐标成比例的横向应力,从而能够计算在轮胎接触表面的横向边缘处在相互抵消的方向上作用的横向应力图。该模型通过使用带石英压电传感器的铝制路段的内鼓机以100 km/h的速度测量打滑角为0°和3°的光滑轮胎进行验证。因此,通过设置适当的模型参数,使用该模型计算的接触压力和横向剪切应力分布结果与实验结果一致。通过修改静摩擦系数和动摩擦系数的设置方法,可以进一步提高模型的精度。
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来源期刊
Tire Science and Technology
Tire Science and Technology ENGINEERING, MECHANICAL-
CiteScore
2.10
自引率
0.00%
发文量
11
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.
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