Author(s)

Woo Cheol Park, Hee Kyu Lim, Kyoung Moon Jeong^*, Tan Wan Kim

R&D Center, KUMHO TIRE Co. Inc., Yongin, South Korea.

A finite element modeling technique is employed in this paper to predict the force transmissibility of tire-cavity-wheel assembly under a free-fixed condition. The tire and wheel force transmissibility is factor in structure borne road noise performance. In order to improve structure borne noise, it is required to lower the 1^st peak frequency of force transmissibility. This paper presents an application of finite element analysis modeling along with experimental verification to predict the force transmissibility of tire and wheel assembly. The results of finite element analysis for force transmissibility are shown to be in good agreement with the results from the indoor test. In order to improve structure borne noise, it is required to lower the 1st peak frequency of force transmissibility. And, the effect of the tire design parameters such as the density and modulus of a rubber and the cord stiffness on the force transmissibility is discussed. It is found that the prediction of the force transmissibility model using finite element analysis will be useful for the improvement of the road noise performance of passenger car tire.

Force Transmissibility, Tire-Cavity-Wheel Assembly, Design Parameter, Finite Element Analysis, Noise

Park, W. , Lim, H. , Jeong, K. and Kim, T. (2018) The Effect of Tire Design Parameters on the Force Transmissibility. Open Journal of Applied Sciences, 8, 446-458. doi: 10.4236/ojapps.2018.810035.