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 2014

等粒径多孔水泥混凝土内部结构与破坏机理

, PP. 32-40

李晓军,李来宾,霍玉娴,高磊,梁路路

Keywords: 道路工程,等粒径多孔水泥混凝土,数值模拟,微结构,强度机理

Full-Text Cite this paper Add to My Lib

Abstract:

为了更好地分析等粒径多孔水泥混凝土内部结构与破坏机理的关系,利用BT500工业CT对等粒径混凝土试件进行了内部结构扫描,并利用图像处理技术进行了初步分析,再通过数值模拟技术分析了等粒径多孔水泥混凝土与传统多孔水泥混凝土组成和内部结构的区别,从微观角度对比、探讨了等粒径多孔水泥混凝土的破坏机理。分析表明等粒径多孔水泥混凝土忽略了集料级配的嵌挤作用,通过提高水泥膜的厚度来完成集料之间的堆积,从而在确保空隙率的基础上提高强度;等粒径多孔水泥混凝土独特的内部结构使得其可以在获得大空隙率的前提下,具有较大的抗压强度的能力。同时考虑到空隙率大既有利于排水,又有利于抵抗拉应变,因此,等粒径多孔水泥混凝土的开发为解决高速公路重载条件下路面基层开裂奠定了基础。

References

[1]	郑木莲,王崇涛,王秉纲. 路用多孔混凝土排水性能.长安大学学报:自然科学版,2007,27(5):6-10. ZHENG Mu-lian,WANG Chong-tao,WANG Bing-gang.Drainage Ability of Porous Concrete in Road. Journal of Chang'an University:Natural Science Edition,2007,27(5):6-10.
[2]	赵玉生.排水基层多孔混凝土强度发展规律研究.混凝土,2009(3):104-106. ZHAO Yu-sheng. Strength Development Law of Porous Concrete for Drainage Subbase Course. Concrete,2009(3):104-106.
[3]	程波,赵永利,许涛,等.路面排水基层多孔混凝土性能试验研究.中外公路,2009,29(1):212-215. CHENG Bo,ZHAO Yong-li,XU Tao,et al. Experimental Study on Porous Concrete for Pavement Permeable Base. Journal of China & Foreign Highway,2009,29(1): 212-215.
[4]	许燕莲,李荣炜,余其俊,等.多孔混凝土孔隙的表征及其与渗透性的关系研究.混凝土,2009(3):16-20. XU Yan-lian,LI Rong-wei,YU Qi-jun,et al. Pore Representation and the Relationship between Pore and Permeability of the Porous Concrete. Concrete,2009(3):16-20.
[5]	袁剑波,侯锋锋,冯新军,等.多孔水泥混凝土有效空隙率影响因素研究.公路,2013(3):172-175. YUAN Jian-bo,HOU Feng-feng,FENG Xin-jun,et al.Research on the Influencing Factors in Effective Air Void of Porous Cement Concrete.Highway,2013(3):172-175.
[6]	孙家伟,王崇涛,郑木莲,等.排水基层多孔混凝土的物理力学性质.公路,2006(增2):349-353. SUN Jia-wei,WANG Chong-tao,ZHENG Mu-lian,et al.Physical and Mechanical Performance of Porous Concrete for Drainage Base. Highway,2006(S2): 349-353.
[7]	蒋明镜,周雅萍,陈贺.不同胶结厚度下粒间胶结力学特性的试验研究.岩土力学,2013,34(5):1264-1273. JIANG Ming-jing,ZHOU Ya-ping,CHEN He. Experimental Study of Mechanical Behaviors of Bonded Granules under Different Bond Thicknesses.Rock and Soil Mechanics,2013,34(5):1264-1273.
[8]	田威,党发宁,陈厚群.基于细观损伤的混凝土破裂过程的三维数值模拟与CT试验验证.岩土力学,2010(增2):428-433. TIAN Wei,DANG Fa-ning,CHEN Hou-qun. 3D Numerical Simulation of Concrete Failure Process and CT Verification Based onMeso-damage. Rock and Soil Mechanics,2010(S2):428-433.
[9]	杨静,蒋国梁.透水性混凝土路面材料强度的研究.混凝土,2000(10):27-28. YANG Jing,JIANG Guo-liang. A Study on Strength of Pervious Concrete as Pavement Material. Concrete,2000(10):27-28.
[10]	奚新国.高孔隙率低碱度胶凝材料的研究[D].南京:南京工业大学,2003. XI Xin-guo. Study on the Cementitious Materials with High Porosity and Low Alkalinity[D]. Nanjing:Nanjing University of Technology,2003.
[11]	郑木莲.多孔混凝土排水基层研究.西安:长安大学,2004. ZHENG Mu-lian. Study on Porous Concrete Permeable Base.Xi'an:Chang'an University,2004.
[12]	郑木莲,陈拴发,王崇涛.多孔混凝土的强度特性.长安大学学报:自然科学版,2006,26(4):20-25. ZHENG Mu-lian,CHEN Shuan-fa,WANG Chong-tao. Strength Character of Porous Concrete. Journal of Chang'an University: Natural Science Edition,2006,26(4):20-25.
[13]	郑木莲,王秉纲,胡长顺.多孔混凝土疲劳性能的研究. 中国公路学报,2004,17(1):11-15. ZHENG Mu-lian,WANG Bing-gang,HU Chang-shun. Study of Fatigue Property of Porous Concrete.China Journal of Highway and Transport,2004,17(1):11-15.
[14]	陈瑜.公路隧道高性能多孔水泥混凝土路面研究[D].长沙:中南大学,2007. CHEN Yu. Study on High-performance Porous Cement Concrete Pavement for Highway Tunnel[D]. Changsha: Central South University,2007.
[15]	李来宾,霍玉娴,石文军,等.新型路面结构层:中国,CN200410056891.9[P].2005-03-02. LI Lai-bin,HUO Yu-xian,SHI Wen-jun,et al.New Pavement Structure Layer: China,CN200410056891.9[P]. 2005-03-02.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133