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中国公路学报 2012

不同交联度环氧沥青混合料低温弯曲性能研究

, PP. 35-39

张占军,闵召辉,黄卫

Keywords: 道路工程,环氧沥青混合料,小梁三点弯曲性能试验,交联度,低温

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Abstract:

？采用交联度分别为75.3%,71.4%,67.3%和58.4%的环氧沥青混合料进行-20℃,-10℃,0℃,10℃温度下小梁三点弯曲性能试验,构建了混合料弯曲强度、弯曲模量、弯曲破坏应变及弯曲应变能密度与温度、交联度的关系方程。结果表明:不同交联度的环氧沥青混合料弯曲强度与模量随着温度的提高而降低,弯曲破坏应变与弯曲应变能密度随着温度的提高而增大;不同交联度的环氧沥青混合料弯曲强度、弯曲模量、弯曲破坏应变及弯曲应变能密度与温度关系基本一致,各弯曲性能参数的温度敏感区间基本相同;温度敏感区间弯曲性能参数变化幅度较大,低于温度敏感区间,则弯曲性能参数变化幅度较小;环氧沥青混合料低温弯曲性能参数与温度、交联度之间具有较好相关性,提出的回归方程可以用于混合料低温弯曲性能预测。

References

[1]	闵召辉.热固性环氧树脂沥青及沥青混合料的开发与性能研究[D].南京:东南大学,2004.
[2]	章守贵.环氧沥青桥面铺装路用性能及施工控制[J].筑路机械与施工机械化,2011,28(9):70-72.
[3]	ZHANG Shou-gui.Road Performance and Construction Control of Epoxy Asphalt Bridge Deck Pavement[J].Road Machinery & Construction Mechanization,2011,28(9):70-72.
[4]	袁迎捷,张争奇,胡长顺.Superpave沥青规范对改性沥青的适用性[J].长安大学学报:自然科学版,2004,24(1):9-11.
[5]	YUAN Ying-jie,ZHANG Zheng-qi,HU Chang-shun.Applicability of Superpave Specification to Modified Asphalt[J].Journal of Chang'an University:Natural Science Edition,2004,24(1):9-11.
[6]	汪双杰,台电仓.改性沥青结合料低温性能评价指标[J].长安大学学报:自然科学版,2007,27(3):25-30.
[7]	WANG Shuang-jie,TAI Dian-cang.Evaluating Indices for Low-temperature Performance of SBR Modified Asphalt Binder[J].Journal of Chang'an University:Natural Science Edition,2007,27(3):25-30.
[8]	钱振东,黄卫,骆俊伟,等.正交异性钢桥面铺装层的力学特性分析[J].交通运输工程学报,2002,2(3):47-51.
[9]	ZHU A-feng,WANG Huai-zhuan,CHEN Xiao-ling.Comparative Study on SBS and BRA Roek Asphalt Modified Asphalt Mixtures Performance[J].Road Machinery & Construction Mechanization,2011,28(10):64-66.
[10]	SAM H.Development of a Fracture Mechanics-based Asphalt Binder Test Method for Low Temperature Performance Prediction[R].Washington DC:TRB,2004.
[11]	LI X,MARASTEANU M O.Cohesive Modeling of Fracture in Asphalt Mixtures at Low Temperatures [J].International Journal of Fracture,2005,136(1/2/3/4):285-308.
[12]	KIM K W,EL HUSSEIN M.Variation of Fracture Toughness of Asphalt Concrete Under Low Temperatures [J].Construction and Building Materials,1997,11(7):403-411.
[13]	黄卫,刘振清,钱振东,等.基于疲劳等效的钢桥面铺装体系轴载换算方法[J].交通运输工程学报,2005,5(1):14-18.
[14]	张争奇,陶晶,张思桐.桥面铺装环氧沥青防水粘结层性能试验与评价[J].长安大学学报:自然科学版,2011,31(4):1-6.
[15]	ZHANG Zheng-qi,TAO Jing,ZHANG Si-tong.Experiment and Evaluation on Performance of Epoxy Asphalt Waterproof Cohesive Layer on Bridge Deck Pavement[J].Journal of Chang'an University:Natural Science Edition,2011,31(4):1-6.
[16]	MIN Zhao-hui.Development and Study of Epoxy Resin Asphalt and Asphalt Mixes [D].Nanjing:Southeast University,2004.
[17]	QIAN Zhen-dong,HUANG Wei,LUO Jun-wei,et al.Mechanical Analysis of Pavement of Orthotropic Steel Deck[J].Journal of Traffic and Transportation En-gineering,2002,2(3):47-51.
[18]	MULL M A,STUART K,YEHIA A.Fracture Resistance Characterization of Chemically Modified Crumb Rubber Asphalt Pavement [J].Journal of Materials Science,2002,37(3):557-566.
[19]	朱阿峰,王怀专,陈晓玲.SBS及BRA岩沥青改性沥青混合料性能比对研究[J].筑路机械与施工机械化,2011,28(10):64-66.
[20]	HUANG Wei,LIU Zhen-qing,QIAN Zhen-dong,et al.Conversion Method of Axle-load for Steel Bridge Deck Based on Fatigue-equivalent[J].Journal of Traffic and Transportation Engineering,2005,5(1):14-18.

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