Design and Characterization of a Non-Linear Variable Inerter in Vehicle Suspension System

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY International Journal of Integrated Engineering Pub Date : 2023-10-19 DOI:10.30880/ijie.2023.15.05.021
Goh K. Y., Soong M. F., Ramli R., Saifizul A.A., Khoo S.Y.
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Abstract

Inerter is a two-terminal component in suspension system such that the force at the two terminals is directly proportional to the relative acceleration of these two points. Studies have shown that the inerter can provide satisfactory vibration isolation for a number of suspension applications, including train suspension, building suspension and vehicle suspension. In the context of vehicle suspension, the existing passive inerter has been shown to provide benefits to vehicle dynamics performance measures, such as ride comfort and road holding ability. However, a basic passive inerter has fixed characteristic, and hence its potential is limited. This study overcome this limitation by incorporating variable inertia in inerter flywheel, however its non-linear characteristic needs to be determined. The method of achieving variable inertia in inerter flywheel is through introduction of movable masses or sliders attached with springs into inerter flywheel. The change of moment of inertia is caused by position change of sliders due to centrifugal force when the flywheel is rotating. Results showed that the proposed variable inerter exhibits a non-linear force-acceleration relationship with respect to its operating rotational speed. A vehicle suspension system equipped with a variable inerter is also able to further reduce vertical vehicle body acceleration and vehicle’s dynamic tire load when compared with vehicle suspension system without inerter and equipped with a passive inerter, which indirectly relates to a better vehicle ride and handling performance improvements. Hence, it can be proved that the proposed variable inerter is better than a passive inerter and is able to provide better ride comfort and road holding ability to a vehicle.
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汽车悬架系统非线性变量惯性器的设计与表征
在悬架系统中,惯性器是一个双端元件,其两端的力与这两点的相对加速度成正比。研究表明,该隔振器可以为多种悬架应用提供满意的隔振效果,包括火车悬架、建筑物悬架和车辆悬架。在车辆悬架方面,现有的被动干涉器已被证明对车辆动力学性能指标有好处,如乘坐舒适性和道路持稳能力。然而,基本无源干涉器具有固定的特性,因此其潜力有限。本研究通过将变惯量加入到干涉器飞轮中,克服了这一局限性,但其非线性特性还有待确定。通过将可动质量块或带弹簧的滑块引入到惯性器飞轮中,实现了惯性器飞轮的变惯量。转动惯量的变化是由于飞轮转动时,由于离心力的作用,滑块的位置发生了变化。结果表明,所设计的可变干涉器与工作转速呈非线性力-加速度关系。与无阻尼器和装有被动阻尼器的悬架系统相比,装有可变阻尼器的悬架系统还能进一步减小车身垂直加速度和车辆动态轮胎载荷,从而间接改善车辆的平顺性和操纵性能。由此可以证明,所提出的可变阻尼器优于被动阻尼器,能够为车辆提供更好的平顺性和持路能力。
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来源期刊
International Journal of Integrated Engineering
International Journal of Integrated Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.40
自引率
0.00%
发文量
57
期刊介绍: The International Journal of Integrated Engineering (IJIE) is a single blind peer reviewed journal which publishes 3 times a year since 2009. The journal is dedicated to various issues focusing on 3 different fields which are:- Civil and Environmental Engineering. Original contributions for civil and environmental engineering related practices will be publishing under this category and as the nucleus of the journal contents. The journal publishes a wide range of research and application papers which describe laboratory and numerical investigations or report on full scale projects. Electrical and Electronic Engineering. It stands as a international medium for the publication of original papers concerned with the electrical and electronic engineering. The journal aims to present to the international community important results of work in this field, whether in the form of research, development, application or design. Mechanical, Materials and Manufacturing Engineering. It is a platform for the publication and dissemination of original work which contributes to the understanding of the main disciplines underpinning the mechanical, materials and manufacturing engineering. Original contributions giving insight into engineering practices related to mechanical, materials and manufacturing engineering form the core of the journal contents.
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