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Research on mechanism and evolution features of frequency split phenomenon of tire acoustic cavity resonance

Yuting Liu, Xiandong Liu, Yingchun Shan, Xiaojun Hu, Jiajing Yi

2020Journal of Vibration and Control12 citationsDOI

Abstract

The acoustic cavity resonance inside the tire–wheel assembly is known to contribute to audible noise in the passenger compartment of vehicles. To obtain control methods of tire acoustic cavity resonance, its characteristics and producing mechanism need to be clarified first. In this article, the finite element model of a tire coupled with acoustic medium in the tire cavity is constructed. The Euler method is introduced to study the modal characteristics of tire cavity under the influence of tire inflation pressure, load, and tire rotation velocity. Frequency splitting phenomena under four separate conditions (stationary tire without load, stationary tire with load, rotating tire without load, and rotating tire with load) are simulated and analyzed. The slope change of the resonance frequency as a function of rotation speed is found to be close to the reciprocal of tire radius which can be explained by a model of wave propagation in a ring-shaped channel with moving media inside the ring. The obtained function of the slope change can help determine the frequency variation range under different vehicle velocity, structure load, and tire inflation pressure, which can then help to control the cavity resonance energy and provide a more comfortable driving experience.

Topics & Concepts

Tire balanceResonance (particle physics)AcousticsContact patchMechanicsRotation (mathematics)Acoustic resonanceMechanism (biology)RADIUSMaterials scienceStructural engineeringPhysicsEngineeringComputer scienceParticle physicsComposite materialNatural rubberComputer securityTreadArtificial intelligenceQuantum mechanicsSoil Mechanics and Vehicle DynamicsBrake Systems and Friction AnalysisVehicle Noise and Vibration Control
Research on mechanism and evolution features of frequency split phenomenon of tire acoustic cavity resonance | Litcius