An investigation is carried out on structure-borne vibration and noise propagation of tyres’ models at low frequencies. The idea is to use embedded resonant meta-materials to damp the tyres’ vibrations and thus reduce the transferred energy to the main attached structures. A simplified tyre model is used, being the investigation of the effects of the embedded substructures the main target of the work; internal pressure and tyre rotation effects are neglected at this stage. Different configurations are tested targeting different natural modes of the tyre, while mechanical excitation is assumed on one section of the tyres. The results show how the proposed designs are a feasible solution for vibration control.
Passive vibration control of tyres using embedded mechanical resonators / Errico, F.; Petrone, G.; Franco, F.; De Rosa, S.; Ichchou, M.. - (2020). ( 3rd Euro-Mediterranean Conference on Structural Dynamics and Vibroacoustics Napoli 17-19 February 2020).
Passive vibration control of tyres using embedded mechanical resonators
G. Petrone;F. Franco;S. De Rosa;
2020
Abstract
An investigation is carried out on structure-borne vibration and noise propagation of tyres’ models at low frequencies. The idea is to use embedded resonant meta-materials to damp the tyres’ vibrations and thus reduce the transferred energy to the main attached structures. A simplified tyre model is used, being the investigation of the effects of the embedded substructures the main target of the work; internal pressure and tyre rotation effects are neglected at this stage. Different configurations are tested targeting different natural modes of the tyre, while mechanical excitation is assumed on one section of the tyres. The results show how the proposed designs are a feasible solution for vibration control.| File | Dimensione | Formato | |
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