Nonlinear Acoustic Sources in Squeezed Car Tyre Cavities

Tire noise has been a topic of increased focus of research in industrial countries in the recent years, due to its contribution to traffic noise. However, knowledge about aerodynamic noise generation mechanisms, which are responsible for the high frequency noise in tires is lacking. This study focuses on the aerodynamic mechanism of small-scale air pumping in tire grooves, where computational fluid dynamics (CFD) is used to investigate the flow and noise features resulting from two different types of deformation in the process of a tire groove interacting with a smooth road surface. The two deformation types include (a) a commonly used piston-type motion of the bottom wall and (b) a more realistic bulging in/out of the side walls of a tire groove. The large eddy simulation (LES)-based approach consisting of the filtered Navier–Stokes equations is employed here along with the appropriate boundary conditions to accurately calculate the solution of the fluid flow resulting from the compression and expansion of air in the groove. Flow patterns are analyzed using velocity and pressure field data, whereas noise analysis is carried out using temporal pressure profiles and corresponding frequency spectra. The comparative study presented here provides a better understanding of the small-scale air pumping phenomenon in tire grooves and also demonstrates the significance of the choice of deformation type employed in such numerical simulations. The latter is critical in designing a more complete CFD model, which can further be used to optimize the tire acoustics.

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A Three-Dimensional Numerical Investigation of Air Pumping Noise Generation in Tires

Gautam

Chandy

2016

Journal of Vibration and Acoustics

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Tire noise reduction is an important aspect of overall vehicle noise reduction. However, due to the complex nature of tire noise generation and correlation between various generation mechanisms, it is difficult to isolate, predict, and control tire noise. Air-related noise generation mechanisms in tires are tough to predict experimentally, resulting in the need for an accurate numerical model. Computational fluid dynamics (CFDs) is used here to propose a numerical tool capable of predicting air-pumping noise generation. Slot deformations are prescribed by custom functions instead of using structural solvers and the rotation of tire is represented by using mesh motion and deformation techniques. Near-field and far-field acoustic characteristics are predicted using fluid dynamic equations and acoustic models. The use of various spectral analysis tools show that the proposed model is capable of predicting the high frequency air-pumping noise while also predicting other air-related mechanisms such as pipe resonance, Helmholtz resonance, and rotational turbulence. This study is intended to provide an understanding of the various air-related noise generation mechanisms so that numerical models can be used in the future to predict tire acoustics economically and effectively.

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Nonlinear Acoustic Sources in Squeezed Car Tyre Cavities

Cited by 5 publications

References 12 publications

Literature review of models on tire-pavement interaction noise

Literature review of models on tire-pavement interaction noise

Numerical Investigation of the Air Pumping Noise Generation Mechanism in Tire Grooves

A Three-Dimensional Numerical Investigation of Air Pumping Noise Generation in Tires

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