Abstract
The nonlinear dynamics of two-wheeled trailers is investigated using a spatial 4-DoF mechanical model. The non-smooth characteristics of the tire forces caused by the detachment of the tires from the ground and other geometrical nonlinearities are taken into account. Beyond the linear stability analysis, the nonlinear vibrations are analyzed with special attention to the nonlinear coupling between the vertical and lateral motions of the trailer. The center manifold reduction is performed leading to a normal form up to third degree terms. The nature of the emerging periodic solutions, and, thus, the sense of the Hopf bifurcations are verified semi-analytically and numerically. Simplified models of the trailer are also used in order to point out the practical relevance of the study. It is shown that the linearly independent pitch motion affects the sense of the Hopf bifurcations at the linear stability boundary. Namely, the constructed spatial trailer model provides subcritical bifurcations for higher center of gravity positions, while the commonly used simplified mechanical models explore the less dangerous supercritical bifurcations only. Domains of loss of contact of tires are also detected and shown in the stability charts highlighting the presence of unsafe zones. Experiments are carried out on a small-scale trailer to validate the theoretical results. A good agreement can be observed between the measured and numerically determined critical speeds and vibration amplitudes.
Highlights
Vehicle handling and stability are critical factors in road transportation; they became relevant research topics a long time ago
Some of the phenomena of the field remained unexplored since they are related to the nonlinear dynamics of the vehicles
Takacs a relatively low degree-of-freedom model, the towing car is imitated by a lateral spring and damping at the king pin. This simplification may seem inappropriate, but in this study, we focus on the effect of the pitch motion on the nonlinear vibrations
Summary
Vehicle handling and stability are critical factors in road transportation; they became relevant research topics a long time ago. The governing equations have a relatively simple form and analytical calculations can be performed regarding the nonlinear properties of car-trailer systems. These models partially explain unsafe parameter zones and related nonlinear phenomena. It is shown in [2,4] that the Hopf bifurcations emerging at the critical towing speed are subcritical. Takacs a relatively low degree-of-freedom model, the towing car is imitated by a lateral spring and damping at the king pin This simplification may seem inappropriate, but in this study, we focus on the effect of the pitch motion on the nonlinear vibrations.
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