ARAÇ SÜSPANSİYON SİSTEMİNİN NÜMERİK ve DENEYSEL DİNAMİK ANALİZİ

In this study, numerical and experimental dynamic analysis of a vehicle suspension system is investigated. Firstly, mathematical model of MacPherson type suspension system of a real vehicle is created by using Newton-Lagrangian laws, MATLAB/Simulink/SimMechanics software and solid model. The motion behaviors of the system obtained from different modeling approaches are simulated according to different road inputs and modeling results are compared. The dynamic behavior of both the front and rear suspension systems of a real vehicle is measured experimentally for verifying modeling studies. In experimental works, image processing method is used in measuring of vehicle displacement behavior according to the road input. Image processing processes are performed using the MATLAB/ MATLAB/Computer Vision System Toolbox software. According to the numerical and experimental results, the spring (k) and damping (b) coefficients in the suspension system are compared and these coefficients used in the numerical models are examined according to the experimental results. Consequently, the scope of this research, it is observed that the results obtained between image processing and modeling methods are very close to each other. In addition, the average displacement behavior difference of the system between the experimental and theoretical results are obtained as minimum 7.92x10-8 mm for the front suspension and 1.12x10-7 mm for the rear suspension.