Road vehicle tyres, railway wheels and ball bearings all generate rolling contact forces which are transferred within a finite area of contact between the rolling element and the substrate. Either it is visible or not for the human eye, a certain degree of roughness is always present on the contacting surfaces and it influences the generation of both vertical and lateral contactforces. The purpose of this investigation is to enhance the understanding and modelling of the influence from small-scale surface roughness on the generation of rolling contact forces. To this end, a computationally efficient method to include roughness-induced contact nonlinearities in the dynamic modelling of rolling contacts is proposed. The method is implemented ...
The reduction of rolling resistance is essential for a more environmentally friendly road transporta...
The interaction between wheel and rail is the predominant source of noise emission from railway oper...
Predicting tyre/road interaction processes like roughness excitation, stick-slip, stick-snap, wear a...
Road vehicle tyres, railway wheels and ball bearings all generate rolling contact forces which are t...
For efficient transportation in either trains, busses or passenger cars, rolling elements such as wh...
The interaction process between a rolling automotive vehicle tyre and a road is influenced by the ge...
Rolling noise is excited by the roughness of the wheel/rail running surfaces. The contact patch acts...
Rolling resistance, noise generation, and wear are all determined by the interaction process between...
This paper deals with the experimental study of dynamical tyre/road contact for noise prediction. In...
International audienceThis paper deals with the experimental study of tyre/road contact forces in ro...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
Prediction of tyre/road noise has been one of the most challenging research fields within acoustics ...
The detailed behaviour at the interface between automotive tyres and roads is important in numerical...
The reduction of rolling resistance is essential for a more environmentally friendly road transporta...
The interaction between wheel and rail is the predominant source of noise emission from railway oper...
Predicting tyre/road interaction processes like roughness excitation, stick-slip, stick-snap, wear a...
Road vehicle tyres, railway wheels and ball bearings all generate rolling contact forces which are t...
For efficient transportation in either trains, busses or passenger cars, rolling elements such as wh...
The interaction process between a rolling automotive vehicle tyre and a road is influenced by the ge...
Rolling noise is excited by the roughness of the wheel/rail running surfaces. The contact patch acts...
Rolling resistance, noise generation, and wear are all determined by the interaction process between...
This paper deals with the experimental study of dynamical tyre/road contact for noise prediction. In...
International audienceThis paper deals with the experimental study of tyre/road contact forces in ro...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
Prediction of tyre/road noise has been one of the most challenging research fields within acoustics ...
The detailed behaviour at the interface between automotive tyres and roads is important in numerical...
The reduction of rolling resistance is essential for a more environmentally friendly road transporta...
The interaction between wheel and rail is the predominant source of noise emission from railway oper...
Predicting tyre/road interaction processes like roughness excitation, stick-slip, stick-snap, wear a...