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Received: 2006-04-29

Revision Accepted: 2006-12-12

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Journal of Zhejiang University SCIENCE A 2007 Vol.8 No.5 P.778~785

10.1631/jzus.2007.A0778


Computation of rolling resistance caused by rubber hysteresis of truck radial tire


Author(s):  MA Gai-ling, XU Hong, CUI Wen-yong

Affiliation(s):  College of Mechanical and Electrical Engineering, Beijing University of Chemical Technology, Beijing 100029, China

Corresponding email(s):   magailing126@163.com

Key Words:  Truck radial tire, Hysteresis rolling resistance (HRR), Finite element analysis (FEA), Hysteresis factor, Tire structure design


MA Gai-ling, XU Hong, CUI Wen-yong. Computation of rolling resistance caused by rubber hysteresis of truck radial tire[J]. Journal of Zhejiang University Science A, 2007, 8(5): 778~785.

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author="MA Gai-ling, XU Hong, CUI Wen-yong",
journal="Journal of Zhejiang University Science A",
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%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.2007.A0778

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T1 - Computation of rolling resistance caused by rubber hysteresis of truck radial tire
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J0 - Journal of Zhejiang University Science A
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DOI - 10.1631/jzus.2007.A0778


Abstract: 
Applying the results of stress and strain calculated by 3D finite element model of truck radial tire 11.00R20, a MATLAB program used to compute rolling resistance of the tire caused by hysteresis rolling resistance (HRR) is worked out. The HRR distribution on different part of tire section, and the effects of speed, load, internal pressure and the width of the rim on HRR are analyzed. The analysis results showed that energy loss produced by tread rubber contributes the most part to HRR of the whole tire, and that to decrease the HRR, the hysteresis factor of the tread rubber should be reduced, and the distribution of the stress and strain on the section be optimized.

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

Reference

[1] Amino, N., Uchiyama, Y., 2000. Relationships between the friction and viscoelastic properties of rubber. Tire Science and Technology, 28(3):178-195.

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[3] Hao, P.T., Ismail, H., Hashim, A.S., 2001. Study of two types of styrene butadiene rubber in tire tread compounds. Polymer Testing, 20(5):539-544.

[4] Ma, G.L., 2005. Analysis of Rolling Resistance Caused by Rubber Hysteresis for Truck Radial Tire. Ph.D Thesis, Beijing University of Chemical Technology, Beijing, p.60-82 (in Chinese).

[5] Mc Allen, J., Cuitiño, A.M., Sernas, V., 1996. Numerical investigation of the deformation characteristics and heat generation in pneumatic aircraft tires, Part II. Thermal modeling. Finite Elements in Analysis and Design, 23(2-4):265-290.

[6] Naohiko, K., 1996. Tires made of short fiber reinforced rubber. Rubber World, 214(3):31-32.

[7] Schuring, D.J., Futamura, S., 1990. Rolling loss of pneumatic high-way tire in the eighties. Rubber Chemistry and Technology, 63(3):315-367.

[8] Shida, Z., Koishi, M., Kogure, T., Kabe, K., 1999. A rolling resistance simulation of tires using static finite element analysis. Tire Science and Technology, 27(2):84-105.

[9] Wang, M.J., Kutsovsky, Y., Zhang, P., Mehos, G., Murphy, L.J., Mahmud, K., 2002. Using carbon-silica dual phase filler, improve global copromise between rolling resistance, wear resistance and wet skid resistance for tires. Kautschuk Gummi Kunststoffe, 55(1):33-40.

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