2[2]P. S. Pillai, et al. Tire Rolling Resistance from Whole-tire Hysteresis Ratio. Rubber Chemistry and Technology, 1992, (65) 2: 444-452.
3[3]克拉盖尔斯基.摩擦、磨损与润滑手册.北京:机械工业出版社,1985,390-417.
4[4]Yavari, B. et al. A Thermomechanical Model to Predict the Temperature Distribution of Steady State Rolling Tires. Tire Science and Technology, 1993,21(3): 163-178.
5[5]Fujikawa, T. et al. Tire Tread Temperature in Actual Contact Areas. Tire Science and Technology, 1994, (22) 1 ,19-41.
4[8]Konghui Guo,Dang Lu,Lei Ren.A unified non~steady non-linear tyre model under complex wheel motion inputs including extreme operating conditions[J].JSAE Review,2001,22:395~402.
5[9]Y.-T.Wei,Z.-H.Tian,X.W.Du.A Finite Element Model for the Rolling Loss Prediction and Fracture Analysis of Radial Tires[J].Tire Science and echnology,1999,27(4):250~276.
6[10]J.T.Tielking,R.A.Schapery.Energy Loss in an Analytical Membrane Tire Model[J].Tire Science and Technology,1977,5(3):136~151.
7[11]M.K.Chakko.Analysis and Computation of Energy Loss in Radial Tires[J].Tire Science and Technology,1984,12(1):3~22.
8[12]Y.D.Kwon,D.C.Prevorsek.Formation of Standing Waves in Radial Tires[J].Tire Science and Technology,1984,12(1):44~63.
9[13]M.Loo.AModelAnalysis of Tire Behavior Under Vertical Loading and Straight-Line Free Rolling[J].Tire Science and Technology,1985,13(2):67~90.
10[14]J.R.Luchini,J.M.Peters,R.H.Arthur.Tire Rolling Loss Computation with the Finite Element Method[J].Tire Science and Technology,1994,22(4):206~222.