Effect of rear slant angle on vehicle crosswind stability simulation on a simplified car model
journal contribution
posted on 2017-09-01, 10:52authored byShuhaimi Mansor, Martin Passmore
It is important to know the effect of the aerodynamic forces and moments on driving stability because it is responsible for the excitation and influences the response of the vehicle. The purpose of this paper is to study the effect of rear slant angle of a surface vehicle on crosswind sensitivity for stability analysis. The vehicle mathematical model used to conduct a dynamic simulation was based on a simple reduced order lateral dynamics of sideslip and yaw rate motion coupled with aerodynamics model. The intention here is to compare the effect of rear slant angles response to crosswind and to rank the crosswind sensitivity ratings. The aerodynamic loads are defined as the function of the aerodynamic derivatives from the static wind tunnel tests. Result shows a 20° rear slant angle demonstrates the highest rating of crosswind sensitivity, while zero degree slant exhibits the least.
History
School
Aeronautical, Automotive, Chemical and Materials Engineering
Department
Aeronautical and Automotive Engineering
Published in
International Journal of Automotive Technology
Volume
14
Issue
5
Pages
701 - 706
Citation
MANSOR, S. and PASSMORE, M.A., 2013. Effect of rear slant angle on vehicle crosswind stability simulation on a simplified car model. International Journal of Automotive Technology, 14 (5), pp. 701-706.
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