Tyre/road simulation tools that can capture tyre vibrations, rolling resistance and noise generation are useful for understanding the complex processes that are involved and thereby promoting further development and optimisation. The most detailed tyre/road contact models use a spatial discretisation of the contact and assume an interfacial stiffness to account for the small-scale roughness within the elements. This interfacial stiffness has been found to have a significant impact on the simulated noise emissions but no thorough investigations of this sensitivity have been conducted. Three mechanisms are thought to be involved: The horn effect, the modal composition of the vibrational field of the tyre and the contact forces exciting the ty...
Rolling resistance, noise generation, and wear are all determined by the interaction process between...
High frequency (above 1 kHz) noise generation from the tyre/road interaction is still not fully unde...
Adhesion forces influence the automotive tyre / road surface contact for certain tyre / road combina...
Tyre/road simulation tools that can capture tyre vibrations, rolling resistance and noise generation...
Tools for simulating tyre/road noise are highly valuable in the efforts to limit the negative conseq...
Noise generation, rolling resistance, wear, and grip are determined by the tyre/road interaction. Th...
Noise is a severe problem in modern society. Road traffic noise is a substantial contributor and the...
Two aspect of phenomena occurring in, and in the vicinity of the contact patch formed by a tyre roll...
Tyre/road noise is the main contributor to road traffic noise at speeds above 40 km/h for passenger ...
Prediction of tyre/road noise has been one of the most challenging research fields within acoustics ...
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...
The detailed behaviour at the interface between automotive tyres and roads is important in numerical...
For most modern cars at normal driving speeds, tyre/road interaction is a major source tothe exterio...
This paper deals with the experimental study of dynamical tyre/road contact for noise prediction. In...
Rolling resistance, noise generation, and wear are all determined by the interaction process between...
High frequency (above 1 kHz) noise generation from the tyre/road interaction is still not fully unde...
Adhesion forces influence the automotive tyre / road surface contact for certain tyre / road combina...
Tyre/road simulation tools that can capture tyre vibrations, rolling resistance and noise generation...
Tools for simulating tyre/road noise are highly valuable in the efforts to limit the negative conseq...
Noise generation, rolling resistance, wear, and grip are determined by the tyre/road interaction. Th...
Noise is a severe problem in modern society. Road traffic noise is a substantial contributor and the...
Two aspect of phenomena occurring in, and in the vicinity of the contact patch formed by a tyre roll...
Tyre/road noise is the main contributor to road traffic noise at speeds above 40 km/h for passenger ...
Prediction of tyre/road noise has been one of the most challenging research fields within acoustics ...
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...
The detailed behaviour at the interface between automotive tyres and roads is important in numerical...
For most modern cars at normal driving speeds, tyre/road interaction is a major source tothe exterio...
This paper deals with the experimental study of dynamical tyre/road contact for noise prediction. In...
Rolling resistance, noise generation, and wear are all determined by the interaction process between...
High frequency (above 1 kHz) noise generation from the tyre/road interaction is still not fully unde...
Adhesion forces influence the automotive tyre / road surface contact for certain tyre / road combina...