2020
DOI: 10.1177/1077546320926793
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Research on mechanism and evolution features of frequency split phenomenon of tire acoustic cavity resonance

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 pres… Show more

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Cited by 9 publications
(9 citation statements)
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“…For the static tire, the existing literatures (Hu et al, 2020; Liu et al, 2021; Sakata et al, 1990; Thompson, 1995) have performed a series of investigations, and some significant results have been reached. But for the completeness of this paper, this section will still introduce and analyze the corresponding works briefly.…”
Section: Analysis Of Acoustic Cavity Resonance Frequency Of Static Tirementioning
confidence: 99%
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“…For the static tire, the existing literatures (Hu et al, 2020; Liu et al, 2021; Sakata et al, 1990; Thompson, 1995) have performed a series of investigations, and some significant results have been reached. But for the completeness of this paper, this section will still introduce and analyze the corresponding works briefly.…”
Section: Analysis Of Acoustic Cavity Resonance Frequency Of Static Tirementioning
confidence: 99%
“…Since equations (2) and (3) which are represented using a phenomenological model have not been verified, and the coefficients of a and b are not obtained by simulation so far, the finite element model of the acoustic cavity of a static loaded tire (185/60R15) with acoustic medium element is established as Figure 1 according to the procedure verified by authors’ previous work (Liu et al, 2021; Yi et al, 2019). Material properties data of the tire in the simulation model is obtained from the tire manufacturer.…”
Section: Analysis Of Acoustic Cavity Resonance Frequency Of Static Tirementioning
confidence: 99%
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