OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

公路交通科技 2013

高弹改性沥青的流变性响应

史思强,杨玉晶,高林

Keywords: 道路工程,高弹改性沥青,流变性,高低温性能,疲劳性能

Full-Text Cite this paper Add to My Lib

Abstract:

为研究高弹改性沥青胶结料性能,对其进行感温性能、高温性能、低温性能及疲劳性能试验,考察高弹改性沥青胶结料在不同条件下的流变响应特性。试验结果表明高弹改性沥青较软,且温度敏感性较小,温度高于135℃后,高弹改性沥青呈牛顿流体性质,可以采用旋转粘度试验对其测试;老化前后,高弹改性沥青的软化点较SBS改性沥青分别高28.8%和26.4%,76℃和82℃下2种沥青胶结料的抗车辙因子相当,而高弹改性沥青的抗车辙因子随温度的变化率较为稳定;老化前后的高弹改性沥青低温延度分别为SBS改性沥青的2倍和1.4倍,其低温PG分级分别较SBS改性沥青低2个和1个等级,蠕变劲度较小,其低温流变性较好;高弹改性沥青胶结料的DSR疲劳性能指标约为SBS改性沥青的1/6,其应变较大,抗疲劳性能优良。

References

[1]	GHUZLAN K A.Fatigue Damage Analysis in Asphalt Concrete Mixtures Based up on Dissipated Energy Concepts ［D］ Urbana:University of Illinois at Urbana-Champaign,2001.
[2]	葛折圣,黄晓明,袁斌.沥青技术性能对混合料疲性能的影响［J］公路,2002 (10):113-115.GE Zhesheng,HUANG Xiaoming,YUAN Bin.Influence of Asphalt Technical Performance on Mixture Fatigue Properties ［J］ Highway,2002 (10):113-115.
[3]	张肖宁.沥青与沥青混合料的粘弹力学原理及应用［M］北京:人民交通出版社,2006:197-221.ZHANG Xiaoning.Viscoelastic Mechanical Theory and Application of Asphalt and Asphalt Mixture ［M］ Beijing:China Communications Press,2006:197-221.
[4]	张婧娜,谭忆秋,张肖宁.应用能量原理预测沥青混合料的疲劳破坏［J］中国公路学报,1998,11 (4):14-20.ZHANG Jingna,TAN Yiqiu,ZHANG Xiaoning.Predicting Fatigue Failure of Bituminous Mixture Using Energy Dissipation ［J］ China Journal of Highway and Transport,1998,11 (4):14-20.
[5]	孙志林,黄晓明,张锐,等.沥青改性剂对沥青混合料疲劳性能影响研究［J］公路交通科技,2008,25 (4):33-36.SUN Zhilin,HUANG Xiaoming,ZHANG Rui,et al.Study on Effect of Asphalt Modifier on Asphalt Mixtures Fatigue Performance ［J］ Journal of Highway and Transportation Research and Development,2008,25 (4):33-36.
[6]	DIYAR B.Three-Dimensional Finite Element Analysis to Evaluate Reflective Cracking Potential in Asphalt Concrete Overlays ［D］ Urbana:University of Illinois at Urbana-Champaign,1997.
[7]	张肖宁,邹桂莲,贺志勇.沥青混合料抵抗反射裂缝能力的评价方法研究［J］华南理工大学学报:自然科学版,2001,29 (7):88-91.ZHANG Xiaoning,ZOU Guilian,HE Zhiyong.Investigation of Evaluating Method to the Ability of Resisting Reflective Cracking for Asphalt Mixture ［J］ Journal of South China University of Technology:Natural Science Edition,2001,29 (7):88-91.
[8]	VAN D W.Practical Fatigue Characterization of Bituminous Mixes ［J］ Proceedings of the Association of Asphalt Paving Technologists,1975,44:31-33.
[9]	郝增恒,张肖宁,盛兴跃,等.高弹改性沥青在钢桥面铺装中的应用研究［J］公路交通科技,2009,26 (4):22-28.HAO Zengheng,ZHANG Xiaoning,SHENG Xingyue,et al.Application of Modified Asphalt with High Elasticity in Steel Deck Pavement ［J］ Journal of Highway and Transportation Research and Development,2009,26 (4):22-28.
[10]	秦禄生,许志鸿.一种高弹沥青面层抗反射裂缝能力试验研究［J］同济大学学报:自然科学版,2008,36 (12):1647-1651.QIN Lusheng,XU Zhihong.Ability of High Elasticity Asphalt Mixture in Resisting Semi-rigid Pavement Reflective Cracking ［J］ Journal of Tongji University:Natural Science Edition,2008,36 (12):1647-1651.
[11]	谢军,郭忠印.沥青混合料疲劳响应模型试验研究［J］公路交通科技,2007,24 (5):21-25.XIE Jun,GUO Zhongyin.Researching on Fatigue Model of Asphalt Mixtures ［J］ Journal of Highway and Transportation Research and Development,2007,24 (5):21-25.
[12]	TAYEBALI A A,ROWE G M,SOUSA J B.Fatigue Response of Asphalt-aggregate Mixtures ［J］ Journal of the Association of Asphalt Paving Technologist,1992,61:333-360.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133