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中国公路学报 2012

编织网增强混凝土受弯性能及电阻稳定性研究

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徐世烺,黄婷婷,宋世德

Keywords: 道路工程,碳/玻璃纤维混合编织网,四点弯曲试验,融雪化冰,电阻稳定性

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Abstract:

？为了实现融雪化冰系统的智能控制,通过四点弯曲试验研究了不同表面处理的碳/玻璃纤维混合编织网增强混凝土薄板的受弯性能以及纤维束电阻值的变化情况。试验结果表明:环氧树脂浸渍以及粘砂处理纤维编织网的方式可有效提高薄板的承载能力|在荷载作用下,纤维束的电阻值稳定,不同表面处理方式不会对电阻的稳定性产生影响。

References

[1]	刘红瑛,郝培文.道路除冰雪技术及其发展趋势[J].筑路机械与施工机械化,2008,25(11):17-21.
[2]	LIU Hong-ying,HAO Pei-wen.Technology and Development Trend of Pavement Deicing[J].Road Machinery and Construction Mechanization,2008,25(11):17-21.
[3]	骆虹,罗立斌,张晶.融雪剂对环境的影响及对策[J].中国环境监测,2004,20(1):55-57.
[4]	王庆艳,李维仲.太阳能-土壤蓄热融雪系统融雪机理的研究[J].太阳能学报,2008,29(11):1385-1389.
[5]	LI Yan-feng,WU Hai-qin,WANG Guan-ming,et al.Experimental Study on the Electrical Road Heating System for Snow Melting[J].Journal of Beijing University of Technology,2006,32(3):217-222.
[6]	TANG Zu-quan,LI Zhuo-qiu,QIAN Jue-shi.Application of Carbon Fiber Reinforced Conductive Concrete for Melting Ice and Snow on Road Surface[J].Journal of Building Materials,2004,7(2):215-220.
[7]	XU Xiao-chun,SONG Jian-cheng,FENG Jin-yang.Development of Steel Slag-carbon Fiber Heating Concrete Floor[J].Concrete,2008(2):122-124.
[8]	潘永灿.纤维织物增强混凝土薄板受力性能研究[D].南京:东南大学,2006.
[9]	PAN Yong-can.Research on Performance in Fiber Textile Reinforced Concrete Sheet[D].Nanjing:Southeast University,2006.
[10]	XU S L,KRGER M,REINHARDT H W,et al.Bond Characteristics of Carbon,Alkali Resistant Glass,and Aramid Textiles in Mortar[J].Journal of Materials in Civil Engineering,2004,16(4):356-364.
[11]	徐世烺,李赫.碳纤维编织网和高性能细粒混凝土的粘结性能[J].建筑材料学报,2006,9(2):211- 215.
[12]	XU Shi-lang,LI He.Study on Bond Property Between High Performance Fine Concrete and Carbon Fiber Textile [J].Journal of Building Materials,2006,9(2):211-215.
[13]	LUO Hong,LUO Li-bin,ZHANG Jing.Affecting and Strategies for Environment of the Solvent of Snow-melted[J].Environmental Monitoring in China,2004,20(1):55-57.
[14]	LEE R C,SACKOS J T,NYDAHL J E,et al.Bridge Heating Using Ground Source Heat Pipes[J].Transportation Research Record,1984,962:51-56.
[15]	WANG Qing-yan,LI Wei-zhong.Research on Snow-melting Mechanism in Solar-heat Storage in Soil Snow-melting Systems[J].Acta Energiae Solaris Sinica,2008,29(11):1385-1389.
[16]	李炎锋,武海琴,王贯明,等.发热电缆用于路面融雪化冰的实验研究[J].北京工业大学学报,2006,32(3):217-222.
[17]	洪雷,宋玉普.石墨水泥砂浆注浆钢纤维混凝土导电性能研究[J].建筑材料学报,2006,9(6):649-653.
[18]	HONG Lei,SONG Yu-pu.Study on Conductive Properties of Graphite Slurry Infiltrated Fiber Concrete[J].Journal of Building Materials,2006,9(6):649-653.
[19]	唐祖全,李卓球,钱觉时.碳纤维导电混凝土在路面除冰雪中的应用研究[J].建筑材料学报,2004,7(2):215-220.
[20]	许孝春,宋建成,冯晋阳.钢渣-碳纤维发热混凝土地板的研制[J].混凝土,2008(2):122-124.
[21]	XU Shi-lang,YU Wen-ting,SONG Shi-de.Numerical Simulation and Experimental Study on Electrothermal Properties of Carbon/Glass Fiber Hybrid Textile Reinforced Concrete[J].Science China:Technological Sciences,2011,54(9):2421-2428.

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