Add to ORKGNumerical tyre/road contact models that include the effects of adhesion are of interest both for fundamental understanding of the interaction and for optimisation of tyre/road combinations. A previously developed numerical time-domain contact model that includes the effect of small-scale roughness is here extended to investigate adhesive forces and inertial effects of the tread. Adhesion is modelled by allowing negative forces in the force-compression relations of each pair of matching contact elements. A limiting force for which the individual contacts break is tested as a preliminary separation criterion. Numerical instabilities were found in the dynamic calculations but measures were successfully implemented to increase stability. Calcul...
This paper deals with the frictional behaviour of a tyre tread elementary volume in sliding contact ...
The racing situation requires a high performance tuned vehicle incorporating a high performance engi...
Adhesion forces in the tyre/road contact interface significantly influence the contact dynamics and ...
Numerical tyre/road contact models that include the effects of adhesion are of interest both for fun...
Rolling resistance, noise generation, and wear are all determined by the interaction process between...
Adhesion forces influence the automotive tyre / road surface contact for certain tyre / road combina...
Rolling resistance, traction, wear, excitation of vibrations, and noise generation are all attribute...
Predicting tyre/road interaction processes like roughness excitation, stick-slip, stick-snap, wear a...
Predicting tyre/road interaction processes like stick-slip and stick-snap and their resulting tyre/r...
Paper to be published. <p /> Adhesive forces are present in the contact between a road surface and a...
This paper describes a new approach to model the forces on a tread block for a free-rolling tyre in ...
The detailed behaviour at the interface between automotive tyres and roads is important in numerical...
The interaction process between a rolling automotive vehicle tyre and a road is influenced by the ge...
Noise generation, rolling resistance, wear, and grip are determined by the tyre/road interaction. Th...
Adhesive bonds in the passenger car tyre/road surface contact have a large influence on the contact ...
This paper deals with the frictional behaviour of a tyre tread elementary volume in sliding contact ...
The racing situation requires a high performance tuned vehicle incorporating a high performance engi...
Adhesion forces in the tyre/road contact interface significantly influence the contact dynamics and ...
Numerical tyre/road contact models that include the effects of adhesion are of interest both for fun...
Rolling resistance, noise generation, and wear are all determined by the interaction process between...
Adhesion forces influence the automotive tyre / road surface contact for certain tyre / road combina...
Rolling resistance, traction, wear, excitation of vibrations, and noise generation are all attribute...
Predicting tyre/road interaction processes like roughness excitation, stick-slip, stick-snap, wear a...
Predicting tyre/road interaction processes like stick-slip and stick-snap and their resulting tyre/r...
Paper to be published. <p /> Adhesive forces are present in the contact between a road surface and a...
This paper describes a new approach to model the forces on a tread block for a free-rolling tyre in ...
The detailed behaviour at the interface between automotive tyres and roads is important in numerical...
The interaction process between a rolling automotive vehicle tyre and a road is influenced by the ge...
Noise generation, rolling resistance, wear, and grip are determined by the tyre/road interaction. Th...
Adhesive bonds in the passenger car tyre/road surface contact have a large influence on the contact ...
This paper deals with the frictional behaviour of a tyre tread elementary volume in sliding contact ...
The racing situation requires a high performance tuned vehicle incorporating a high performance engi...
Adhesion forces in the tyre/road contact interface significantly influence the contact dynamics and ...