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公路交通科技 2010

聚合物骨架空隙混凝土细观模型及结合料的受力分析

, PP. 12-17

杨庆国,何小兵,谷建义

Keywords: 道路工程,聚合物骨架空隙混凝土,细观计算模型,数值分析,结合料

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Abstract:

基于聚合物骨架空隙混凝土的力学性能在很大程度上依赖于结合材料的力学性能,运用有限元计算方法研究结合料的性能和其厚度对聚合物骨架空隙混凝土的影响,可以减少试验工作量、优化聚合物骨架空隙混凝土材料的配比设计。有限元计算时,针对聚合物骨架空隙混凝土"弹性结合料+骨料+空隙"的构造特点,细观计算模型中考虑了混凝土内部的构造空隙;针对结合料厚度较小的特点,采用了细观单元建模,材料参数取值采用了试验结果的代表值。结果表明,计算值和试验值吻合较好,说明细观模型能够较好模拟弹性聚合物骨架空隙混凝土的力学特性;聚合物骨架空隙混凝土采用较厚的聚合物水泥结合料对聚合物骨架空隙混凝土材料的整体受力有利。

References

[1]	易志坚, 黄锋, 李祖伟, 等.聚合物骨架空隙混凝土路面的服务功能与资源节约
[2]	[C]// 交通资源节约和环境保护新技术研讨会论文集.北京:人民交通出版社, 2007:3-5.YI Zhijian, HUANG Feng, LI Zuwei, et al.Study on the Service Functions and Resource Conservation of Polymer-toughened Cement Lattice Concrete Pavement
[3]	[C]// Proceedings of Symposium on New Technologies of Transportation Resource Conservation and Environmental Protection.Beijing:China Communications Press, 2007:3-5.
[4]	易志坚, 杨庆国, 赵朝华, 等.多功能聚合物骨架空隙混凝土路面
[5]	[C] // 交通资源节约和环境保护新技术研讨会论文集.北京:人民交通出版社, 2007:16 -20.YI Zhijian, YANG Qingguo, ZHAO Chaohua, et al.Study of the Multifunctional Polymer -toughened Cement Lattice Concrete Pavement
[6]	[C]//Proceedings of Symposium on New Technologies of Transportation Resource Conservation and Environmental Protection.Beijing:China Communications Press, 2007: 16-20.
[7]	易志坚, 唐羽, 李祖伟, 等.聚合物骨架空隙混凝土的常规力学性能
[8]	[C]//交通资源节约和环境保护新技术研讨会论文集.北京:人民交通出版社, 2007:21-23.YI Zhijian, T ANG Yu, LI Zuwei, et al.Research on the Conventional Mechanical Propertiesof Polymer -toughenedCement Lattice Concrete Pavement
[9]	[C]// Proceedings of Symposium on New Technologies of Transportation Resource Conservation And Environmental Protection.Beijing:China Communications Press, 2007:21-23.
[10]	易志坚, 高春君, 高太雄, 等.聚合物骨架空隙混凝土路面的施工工艺
[11]	[C] // 交通资源节约和环境保护新技术研讨会论文集.北京:人民交通出版社, 2007: 24-27.YI Zhijian, GAO Chunjun, GAO Taixiong, et al.Research on the Construction Technology of Polymer -toughened Cement Lattice Concrete Pavement
[12]	[C]//Proceedings of Symposium on New Technologies of Transportation Resource Conservation and Environmental Protection.Beijing:China Communications Press, 2007:24-27.
[13]	易志坚, 古建义, 张太雄, 等.聚合物骨架空隙混凝土路面依托工程应用情况
[14]	[C] // 交通资源节约和环境保护新技术研讨会论文集.北京:人民交通出版社, 2007:28-32.YI Zhijian, GU Jianyi, ZHANG Taixiong, et al.Engineering Application of Polymer-toughened Cement Lattice Concrete Pavement
[15]	[C] //Proceedings of Symposium on New Technologies of Transportation Resource Conservation and Environmental Protection.Beijing:China Communications Press, 2007: 28-32.
[16]	伍石生.低噪声沥青路面设计与施工养护
[17]	[M].北京: 人民交通出版社, 2005.WU Shisheng.Low-noise Asphalt Pavement Design and Construction Maintenance
[18]	[M].Beijing:China Communications Press, 2005.
[19]	ADLER P M, THOVERT J F, BEKRI S, et al.Real Porous Media:Local Geometry and Transports Fracture
[20]	[J].Journal of Engineering Mechanics, 2002 (8):829-839.
[21]	TANG C A.Numerical Tests of Progressive Failure in Brittle Materials
[22]	[J].Journal ofMechanics and Practices, 1999, 21 (2):21-24.
[23]	ARSLAN A, INCE R, KARIHALOO B L.Improved Lattice Mode for Concrete Fracture
[24]	[J].Journal of Engineering Mechanics, 2002 (1):57-65.
[25]	CUSATIS G, BAZANT Z P, CEDOLIN L.Confinement-Shear Lattice Model for Concrete Damage in Tension and Compression:I.Theory
[26]	[J].Journal of Engineering Mechanics ASCE, 2003 (12):1439-1448.
[27]	DAI Q L, SADD M H, PARAMESWARAN V, et al.Prediction of Damage Behaviors inAsphalt Materials Using a and Image Analysis
[28]	[J].Journal of Engineering Mechanics ASCE, 2005 (7):668-676.
[29]	DAI Q L, YOU Zhanping.Prediction of Creep Stiffness of Asphalt Mixture with Micromechanical Finite -Element and Discrete -Element Models
[30]	[J].Journal of Engineering Mechanics ASCE, 2007 (2):163-173.

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