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保水降温半柔性路面材料性能研究
引用本文:凌天清,郑晓卫,凌濛,熊出华,董强. 保水降温半柔性路面材料性能研究[J]. 中国公路学报, 2010, 0(2)
作者姓名:凌天清  郑晓卫  凌濛  熊出华  董强
作者单位:重庆交通大学土木建筑学院;长安大学公路学院;
基金项目:国家西部交通建设科技项目(200631881478)
摘    要:对保水降温半柔性路面混合料SFAC-13的高温稳定性、水稳定性、低温抗裂性和抗疲劳性能等路用性能进行了室内试验研究,并与普通沥青混凝土AC-16进行了对比分析;同时对保水降温半柔性混合料SFAC-13路面的保水性能及降温性能进行了测试研究。结果表明:保水降温半柔性路面混合料SFAC-13的动稳定度比AC-16高很多,其残留稳定度和冻融劈裂强度比均比AC-16大,且其在-10℃时的低温破坏拉伸应变较大、劲度模量较小;SFAC-13的抗疲劳性能也优于普通沥青混合料AC-13;保水降温半柔性路面比普通沥青混合料AC-16路面降温8℃~10℃;推荐采用路面浸水24 h的保水量和洒水8 h后的路面降温参数作为保水降温半柔性路面的评价指标。

关 键 词:道路工程  半柔性路面  室内试验  路用性能  低碳路面  保水降温性能  

Research on Performance of Water-retention and Temperature-fall Semi-flexible Pavement Material
LING Tian-qing,ZHENG Xiao-wei,LING Meng,XIONG Chu-hua,DONG Qiang. Research on Performance of Water-retention and Temperature-fall Semi-flexible Pavement Material[J]. China Journal of Highway and Transport, 2010, 0(2)
Authors:LING Tian-qing  ZHENG Xiao-wei  LING Meng  XIONG Chu-hua  DONG Qiang
Affiliation:LING Tian-qing1,ZHENG Xiao-wei1,LING Meng2,XIONG Chu-hua1,DONG Qiang1 (1.School of Civil Engineering , Architecture,Chongqing Jiaotong University,Chongqing 400074,China,2.School of Highway,Chang'an University,Xi'an 710064,Shaanxi,China)
Abstract:High temperature properties,water stability,low temperature crack resistance,and fatigue resistance of water-retention and temperature-fall semi-flexible pavement mixture SFAC-13 which were compared with ordinary asphalt concrete AC-16 were tested in laboratory,as well as water-retention and temperature-fall performance of SFAC-13 were studied.Result indicates that the dynamic stability of SFAC-13 is much higher than that of AC-16,its residue stability and the ratio of freezing-thawing split-strength are la...
Keywords:road engineering  semi-flexible pavement  laboratory test  pavement performance  low carbon pavement  performance of water-retention and temperature-fall  
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