TY - GEN
T1 - Research on application of second-order Helmholtz Resonator in attenuating tire cavity resonance noise
AU - Jia, Jiahang
AU - Liu, Xiandong
AU - Yu, Yongning
AU - Bao, Yue
N1 - Publisher Copyright:
© 2024 by Societe Francaise d’Acoustique. All Rights Reserved.
PY - 2024
Y1 - 2024
N2 - Tire cavity resonance noise (TCRN) is well-known as one of the significant sources causing the interior noise at low-frequency band. Previous research shows that Helmholtz resonator (HR) array in an automotive wheel may obviously attenuate TCRN. To further improve the effect, the second-order HRs in the HR array are introduced here. Firstly, the theoretical model of second-order HR is established, and the results are verified by finite element method. The results show that the second-order HR with the same cavity volume may produce two transmission loss peaks, and a higher peak than that of the original first-order HR in the specified frequency band. Then, the optimization is performed to obtain a higher effect of attenuating TCRN at the original design frequency and a certain effect of attenuating road noise in the specified lower-frequency band. The results indicate that the desired effect may be achieved, and the higher resonance frequency can easily fall in the frequency band below 600Hz although hard to fall in the frequency band of TCRN. So the second-order HR is helpful to improve attenuating road noise including TCRN.
AB - Tire cavity resonance noise (TCRN) is well-known as one of the significant sources causing the interior noise at low-frequency band. Previous research shows that Helmholtz resonator (HR) array in an automotive wheel may obviously attenuate TCRN. To further improve the effect, the second-order HRs in the HR array are introduced here. Firstly, the theoretical model of second-order HR is established, and the results are verified by finite element method. The results show that the second-order HR with the same cavity volume may produce two transmission loss peaks, and a higher peak than that of the original first-order HR in the specified frequency band. Then, the optimization is performed to obtain a higher effect of attenuating TCRN at the original design frequency and a certain effect of attenuating road noise in the specified lower-frequency band. The results indicate that the desired effect may be achieved, and the higher resonance frequency can easily fall in the frequency band below 600Hz although hard to fall in the frequency band of TCRN. So the second-order HR is helpful to improve attenuating road noise including TCRN.
UR - https://www.scopus.com/pages/publications/105015511750
M3 - 会议稿件
AN - SCOPUS:105015511750
T3 - 53rd International Congress and Exposition on Noise Control Engineering, Internoise 2024
SP - 1083
EP - 1090
BT - 53rd International Congress and Exposition on Noise Control Engineering, Internoise 2024
PB - Societe Francaise d'Acoustique
T2 - 53rd International Congress and Exposition on Noise Control Engineering, Internoise 2024
Y2 - 25 August 2024 through 29 August 2024
ER -