ANALYSIS OF THE NONLINEAR DYNAMICS OF A RAILWAY VEHICLE WHEELSET
The nonlinear equations of motion for a railway vehicle wheelset having curved wheel profiles and wheel-flange/rail contact are presented. The dependence of axle roll and vertical displacement on lateral displacement and yaw is formulated by two holonomic constraint equations. The method of Krylov-Bogoliubov is used to derive expressions for the amplitudes of stationary oscillations. A perturbation analysis is then used to derive conditions for the stability characteristics of the stationary oscollations. The expressions for the amplitude and the stability conditions are shown to have a simple geometrical interpretation which facilitates the evaluation of the effects of design parameters on the motion. It is shown that flange clearance and the nonlinear variation of axle roll with lateral displacement significantly influence the motion of the wheelset. Stationary oscillations may occur at forward speeds both below and above the critical speed at which a linear analysis predicts the onset of instability.
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Corporate Authors:
Society of Mechanical Engineers
345 East 47th Street
New York, NY United States 10017 -
Authors:
- Law, E H
- Publication Date: 1973-2
Media Info
- Pagination: p. 28-35
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Serial:
- ASME Journal of Dynamic Systems, Measurements and Control
- Volume: 95
- Issue Number: 1
- Publisher: American Society of Mechanical Engineers
Subject/Index Terms
- TRT Terms: Hunting (Dynamics); Train track dynamics; Trucks
- Subject Areas: Motor Carriers; Railroads; Vehicles and Equipment;
Filing Info
- Accession Number: 00048239
- Record Type: Publication
- Source Agency: British Railways
- Files: TRIS
- Created Date: Jan 4 1974 12:00AM