SEARCH RESULT

The objective of this study is to generate two degree of freedom (2-DOF) rail vehicle model and to effectively determine vibration characteristic of the model. Firstly, two degree of freedom mathematical models were formed and equations of motion were obtained to examine vertical vibration of vehicle model. After getting equations of motion, vibration analysis was performed using MATLAB-SIMULINK. Then, the solid model of two degree of freedom rail vehicle model was created by means of computer aided design software. Afterwards, solid model created in the previous section was transferred to ADAMS dynamic analysis software and by selecting appropriate joints, degree of freedom constraints of parts were determined. Finally, created model was performed in vibration analysis. According to analysis results, vertical axis vibration values of ADAMS model were compared with two degree of freedom MATLAB model and it was seen that results are in good agreement with each other. It was determined that the error rate between ADAMS model and two degree of freedom MATLAB model is 1.12 %.

International Symposium on Railway System Engineering
ISERSE

Kerim Gökhan Aktaş Fatih Pehlivan İsmail Esen Cihan Mizrak

Purpose of the paper is to design a basic two degree of freedom (2-DOF) rail vehicle model in SOLIDWORKS software, to analyze vertical vibrations of the designed model in Motion Interface of the software and to show the result is almost same with the result obtained by transfer function of the system. In this study, to obtain dynamic response was used vertical harmonic excitations supplied by slider-crank mechanism. Transfer function of the system was generated after getting equations of motion and then the dynamic analysis was done by using SOLIDWORKS Motion Interface. As a result, displacement, velocity and acceleration graphs taken from both methods were compared and this comparison showed that the period values of both methods were exactly same after equilibrium position and the amplitudes values of both methods had the same results by a maximum error of 0.87%.

International Symposium on Railway System Engineering
ISERSE

Fatih Pehlivan Kerim Gökhan Aktaş İsmail Esen Cihan Mizrak