Abstract
In order to explore the strategy that improves the vehicle handling stability, a 3-DOF vehicle model of angle step input was simulated based on MATLAB. The influence of vehicle structural parameters on vehicle handling stability based on high lateral acceleration was analyzed. Then, the influence of suspension sway bar on vehicle handling stability based on field vehicle test also was analyzed. The results show that, wheelbase, damping shock absorber and suspension roll angle stiffness are the important factors that influence the vehicle handling stability when the vehicle has a high lateral acceleration. With the increasing of vehicle velocity, the importance of stabilizer bar on vehicle handling stability enhance as well. Understeer and roll characteristic is improved by changing the diameter of the sway bar. Furthermore, the vehicle handling stability is improved and the security of vehicle driving is enhanced.
Supported by: the National Natural Science Foundation of China (Grant No. 51375200; 51578262; 51705188).
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References
Zhang Y (2007) Study on the development of vehicle stability control system based on active braking. Shanghai Jiao Tong University
Zhang H (2012) Research on bus handing stability analysis and control strategy. Jilin University
Yang M (2014) Research on rural road bus driving stability and driver’s visual and physiological characteristics. Jilin University
Ahmadi R, Fajri P, Ferdowsi M (2013) Dynamic modeling and stability analysis of an experimental test bench for electric-drive vehicle emulation. In: Power and energy conference at Illinois. IEEE, pp 88–94
Yan ZM, Cai JJ, Qu SQ et al (2014) The analysis of amphibious vehicle handling stability based on ADAMS/car. Adv Mater Res 1006–1007(1006–1007):294–297
State key laboratory of automotive simulation and control, Jilin University (2008) Subjective evaluation report of vehicle chassis driving performance. Changchun: State key laboratory of automotive simulation and control, Jilin University
Hung BM, You SS, Kim HS (2016) Nonlinear vehicle stability analysis. In: The advanced engineering-theory and applications international conference
Pacejka HB, Sharp RS (1991) Shear force development by pneumatic tyres in steady state conditions: a review of modelling aspects. Veh Syst Dyn 20(3–4):121–175
Wen F, Sun Y (2007) Discussion on evaluation index of vehicle handling stability in open loop test system. 9th Nat Conf Ground Mach Syst
Liu W (2001) Automotive design. Tsinghua University Press
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Li, Xs., Xing, Dw., Zheng, Xl., Ren, Yy., Meng, Xy., Sun, J. (2019). Study on the Influence of Vehicle Structural Parameters on Vehicle Handling Stability. In: Wang, W., Bengler, K., Jiang, X. (eds) Green Intelligent Transportation Systems. GITSS 2017. Lecture Notes in Electrical Engineering, vol 503. Springer, Singapore. https://doi.org/10.1007/978-981-13-0302-9_49
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DOI: https://doi.org/10.1007/978-981-13-0302-9_49
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