The tonal character of the low frequency internal noise in cars is often due to energy transmission through the tyre at the first few eigenfrequencies of the air cavity of the tyre. The first acoustic mode in the air cavity of a typical stationary car tyre is approximately 224 Hz. At this frequency the tyre is comparatively stiff resulting in a high transmission of energy from the road wheel contact to the car body itself. In order to investigate possible means of reducing this effect, the acoustic field inside a tyre is modelled. Theoretically it is found that the pressure inside a tyre and the energy transmission through the tyre to the wheel axle and the car body can be reduced by adding a sound absorbing material inside the tyre. This w...
This paper will focus on determining characteristics of tyre cavity resonance noise and its mitigati...
In this study, the use of acoustic absorbent materials specifically felt to mitigate tire cavity res...
The tyre cavity resonance induced noise and vibration currently have no effective mass production so...
The tonal character of the low frequency internal noise in cars is often due to energy transmission ...
Noise and vibration in automotive vehicles relates to a feeling of luxury. Noise, Vibration and Hars...
The first resonance of the tyre air cavity can significantly affect vehicle interior noise at freque...
Tyre noise has become an increasingly important road traffic noise source. This is because other sou...
In this work, the experimental study was conducted to identify the resonant frequencies and modal sh...
Increasing competition has set pressure on the product development process to reduce development tim...
Tyre cavity resonance can significantly affect vehicle interior noise at frequencies around 200 Hz. ...
For most modern cars at normal driving speeds, tyre/road interaction is a major source tothe exterio...
A study of tyre inner trim as a method for reducing tyre cavity resonance noise is presented. The ty...
A study of tyre inner trim as a method for reducing tyre cavity resonance noise is presented. The ty...
The tyre/road interaction model developed by Chalmers during the last years is utilised to exam both...
The transferred vibration and induced noise due to the tyre cavity resonance currently have no effec...
This paper will focus on determining characteristics of tyre cavity resonance noise and its mitigati...
In this study, the use of acoustic absorbent materials specifically felt to mitigate tire cavity res...
The tyre cavity resonance induced noise and vibration currently have no effective mass production so...
The tonal character of the low frequency internal noise in cars is often due to energy transmission ...
Noise and vibration in automotive vehicles relates to a feeling of luxury. Noise, Vibration and Hars...
The first resonance of the tyre air cavity can significantly affect vehicle interior noise at freque...
Tyre noise has become an increasingly important road traffic noise source. This is because other sou...
In this work, the experimental study was conducted to identify the resonant frequencies and modal sh...
Increasing competition has set pressure on the product development process to reduce development tim...
Tyre cavity resonance can significantly affect vehicle interior noise at frequencies around 200 Hz. ...
For most modern cars at normal driving speeds, tyre/road interaction is a major source tothe exterio...
A study of tyre inner trim as a method for reducing tyre cavity resonance noise is presented. The ty...
A study of tyre inner trim as a method for reducing tyre cavity resonance noise is presented. The ty...
The tyre/road interaction model developed by Chalmers during the last years is utilised to exam both...
The transferred vibration and induced noise due to the tyre cavity resonance currently have no effec...
This paper will focus on determining characteristics of tyre cavity resonance noise and its mitigati...
In this study, the use of acoustic absorbent materials specifically felt to mitigate tire cavity res...
The tyre cavity resonance induced noise and vibration currently have no effective mass production so...