参考文献：

[1]Kraus G.Reinforcement of Elastomers[M].New York:Interscience Press,1965:125 -152.
[2]王小萍,朱立新,贾德民.橡胶纳米复合材料研究进展[J].合成橡胶工业,2004,27(4):257-260.
[3]王贵一,橡胶的摩擦及试验[J].特种橡胶制品,2000,21(3):55-62.
[4]Zhang S W.State-of-the-art of polymer tribology[J].Tribal Int,1998,31 (1/2/3):49 -60.
[5]王作龄.橡胶的摩擦与磨耗[J].世界橡胶工业,2007,34(6):19-27.
[6]Stupak P R,Donovan J A.Fractal analysis of rubber wear surfaces and debris[J],.J Mater Sci,1988,23 (6):2230 -2242.
[7]周祚万,楚珑晟.唐明文.ZnOw/NR-SBR-BR复合材料的摩擦磨损机理[J].高分子材料科学与工程,2004,20(4):127-131.
[8]吕仁国,李同生,刘旭军.橡胶摩擦磨损特性的研究进展[J].高分子材料科学与工程,2002,18(5):12-15.
[9]Moore D F.摩擦学原理和应用[M].北京:机械工业出版社,1982:39-242.
[10]Persson B N J.On the theory of rubber friction[J].Surface Science,1998,401 (3):445 -454.
[11]Heinrich G.Hysteresis friction of sliding rubbers on rough and fractal surfaces[J].Rubb Chem Technol,1997,70 (I):1 -14.
[12]Moore D F,Geyer W.A review of adhesion theories for elastomers[J].Wear,1972,22(2):113-141.
[13]Pulford C T R.Failure of rubber by abrasion[J].Rubb Chem Technol,1985,58 (3):653 -661.
[14]Gent A N.A hypothetical mechanism for rubber abrasion[J].Rubb Chem Technol,1989,62 (4):750 -756.
[15]Yoshihide Fukabori,Hiretaka Yamazaki.Mechanism of rubber abrasion(Ⅰ):Abrasion pattern formation in natural rubber vulcanizate[J].Wear,1994,171 (2):195 -202.
[16]Yoshihide Fukabori,Hirotaka Yamazaki.Mechanism of rubber abrasion(Ⅱ):General rule in abrasion pattern formation in rubher-like materials[J].Wear,1994,178(1/2):109 -116.
[17]王贵一.橡胶的磨耗[J].特种橡胶制品,1994,15(1):42-47.
[18]Schallamach A.On the abrasion of.rubber[J].Proc Phys Soc,1954,67(12):883 -891.
[19]彭旭东,郭孔辉,丁玉华.轮胎磨耗机理及炭黑对磨耗的影响[J].合成橡胶工业,2003,26(3):136-140.
[20]关长斌,任艳军,卢硕,等.稀土Ce02对橡胶材料耐磨性的影响[J].摩擦学学报,2006,26(2):179-182.
[21]姜国栋,张瑞成,颜兵兵.等.丁苯橡胶磨损特性及其硬度分析[J].林业机械与木工设备,2000,1(8):15-16.
[22]Blouet J,Barquins M F.Usure et Lubritlcation des élastomères[J].Ingénieurs de I' automobile,1978(11/12):687 -706.
[23]关长斌.GF增强橡胶复合材料耐磨性研究[J].物理测试,2003(2):8-9.
[24]Karger-Koesis J,FelhOs D,Xu D,et al.Unlubricated sliding and rolling wear of thermoplastic dynamic vulcanizates (Santoprene) against steel[J].Wear,2008,265(3/4):292 -300.
[25]Persson B N J,Tosatti E.Qualitative theory of rubber friction and wear[J1.J Chem Phys,2000,112(4):2021 -2029.
[26]Baeka D K,Khonsari M M.Fretting behavior of a rubber coating:Effect of temperature and surface roughness variations[J].Wear,2008,265 (5/6):620 -625.
[27]Schallamach A.How does rubber slide?[J].Wear,1971,17(4):301 -312.
[28]赵红娟,译.在橡胶典型磨损中滑动速率对摩擦和磨耗性能的影响[J].橡胶参考资料,2000,31(10):53-56.
[29]吕仁国,李同生.载荷对丁腈橡胶摩擦学性能的影响[J].润滑与密封,2001(6):29-30.
[30]杨兆春,周海,姚斌.等.湿煤粉条件下丁腈橡胶摩擦磨损规律的研究[J].润滑与密封,2000(4):22-23.
[31]杨兆春,徐风信.橡胶摩擦磨损过程中振动现象的研究[J].润滑与密封,2000(6):17～18.
[32]Chowdhury M A,Helali M M.The effect of amplitude of vibration on the eoeffieient of friction for different materials[J].Tribol Int,2007,41 (4):307 -314.
[33]周柞万,楚珑晟,顾利霞.ZnOw改善橡胶和轮胎耐磨性能的研究[J].材料·工艺·设备,2003(7):29-32.
[34]江晓红,Yarmolenko M A,Rogaehev A V,等.聚合物复合薄膜改性橡胶表面结构及其摩擦性能研究[J].摩擦学学报,2007,27(2):106-111.
[35]Nobuhide Miyakawa,Shinji Minamisawa,Hirifumi Takikawa,et al.Physical-chemical hybrid deposition of DLC film on rubber by T-shape fihered-arc-depesition[J].Vacuum,2004,73 (3/4):611 -617.
[36]Hirofumi Takikawa,Nobuhide Miyakawa,Shinji Minamisawa,et al.Fabrication of diamond-like carbon film on rubber by T-shape filtered-arc-deposition under the influence of various ambient gases[J].Thin Solid Films,2004,457 (1):143 -150.
[37]Takabiro Nakabigashi,Yoshikazu Tanaka,Koji Miyake,et al.Properties of flexible DLC film deposited by amplitude-modulated RF P-CVD[J].Tribol Int,2004,37(11/12):907 -912.
[38]Yuiehi Aoki,Nanto Ohtake.Tribological properties of segmentstructured diamond-like carbon films[J].Tribol Int,2004,37 (11/12):941 -947.
[39]Pei Y T,Bui X L,Zhou X B,et al.Tribological behavior of W-DLC coated rubber seals[J].Surface & Coatings Technology,2008,202 (9):1869 -1875.
[40]黄新武,王廷梅,田农,等.芳纶纤维增强丁腈橡胶的摩擦性能[J].合成橡胶工业,2006,29(6):451-453.
[41]Bielinski D,Slusarski L,Janezak K J,et al.Physical modification of elastomers to improve their tribological properties[J].Wear,1993,169 (2):257 -263.
[42]边俊峰,栗付平,张洪雁.二硫化钼在氟醚橡胶中的应用[J].橡胶工业,2000,47(5):274-275.
[43]方晓波.黄承亚,朱立新.石墨和二硫化钼填充氟橡胶的摩擦磨损特性研究[J].润滑与密封,2008.33(13):72-75.
[44]Yang Jian,Tian Ming,Jia Qingxiu,et al.Improved mechanical and functional properties of elastomer/graphite nanocomposites prepared by latex compounding[J].Acts Materialia,2007,55(18):6372 -6382.
[45]张静.超细木质素粉末的制备及其在橡胶中的应用[J].特种橡胶制品,2002,23(6):29-31.
[46]林原.橡甥密封材料的研究应用进展[J].特种橡胶制品.2002,23(2):59-62.
[47]何世权,杨逢瑜,安晓英,等.纳米Fe3O4磁性复合丁腈橡胶用作中、高压轴封的研究[J].兰州理工大学学报,2008,34(2):65-69.
[48]FelhOs D,Karger-Koesis J,Xu D.Tribologieal testing of peroxide cured HNBR with different MWCNT and silica contents under dry sliding and rolling conditions against steel[J].Journal of Applied Polymer Science,2008,108 (5):2840 -2851.
[49]Karger-Kocsis J,Mousa A,Major Z,et el.Dry friction and sliding wear of EPDM robbers against steel as a function of carbon black eontent[J].Wear,2008,264 (3/4):359 -367.
[50]FelhOs D,Karger-Koesis J.Tribologieal testing of peroxide-cared EPDM robbem with different carbon black contents under dry sliding conditions against steel[J].Tribology International,2008,41 (5):404 -415.
[51]张嗣伟.橡胶磨损机理的研究[J].石油大学学报,1993,17(增刊):162-169.
[52]Stupak P R,Kang J H,Donovan J A.Fractal characteristics of robber wear surfaces as a function of load and velocity[J].Wear,1990,141 (1):73 -84.
[53]Stupak P R,Kang J H,Donovan J A.Computer-aided fractal analysis of rubber wear surfaces[J].Materials Characterization,1991,27(4):231 -240.
[54]金昌,孟繁忠,兰宏.O形橡胶密封圈摩托车滚子链磨损特性的研究[J].摩擦学学报,2002,22(4):286-289.