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Fatigue Life Prediction of Radial Tire Bead Using a Maximum Strain Energy Density Range Method

Guolin Wang, Weibin Wang, Chen Liang, Leitian Cao

2021Applied Sciences33 citationsDOIOpen Access PDF

Abstract

The damage that occurs around the tire bead region is one of the critical failure forms of a tire. Generally, the prediction of tire durability is carried out by the experimental method. However, it takes a lot of money and time to conduct experiments. Therefore, to determine the fatigue life of radial tire bead, a reasonable prediction method is proposed in this paper. Fatigue testing of bead rubber compounds to determine the ΔSED-number of the cycle (Nf) was applied. The maximum strain energy density range (ΔSEDmax) of several bead compounds was obtained by steady-state rolling analysis with a finite element method. This quantity is then inserted into a fatigue life equation to estimate the fatigue life. The experimental results of the 175/75R14 tire were compared with the estimated value, which showed a good correlation. It is concluded that the method can be effectively applied to the fatigue life prediction of the tire bead.

Topics & Concepts

BeadMaterials scienceStrain energy density functionDurabilityNatural rubberRadial tireFinite element methodStructural engineeringComposite materialRange (aeronautics)EngineeringTreadMechanical Engineering and Vibrations ResearchFatigue and fracture mechanicsElasticity and Material Modeling