Behaviour of GFRP R.C. Slabs in Flexure in Localenvironment An Experimental Study
Behaviour of GFRP R.C. Slabs in Flexure in Localenvironment An Experimental Study
摘要
A variety of new materials in the field of concrete technology have been developed during the past three decades with the ongoing demand of construction industry to meet the functional, strength, economical and durability requirements. Though reinforced concrete has high strength and is most widely used construction material it suffers from disadvantages like corrosion of steel, susceptibility to chemical and environmental attack. In order to overcome the above deficiencies of reinforced concrete new materials (special concrete composites) have been developed over the past three decades. Glass Fibre Reinforced Polymer (GFRP) is one such material with wide range of applications. Based on the preliminary investigations on GFRP bars, an optimum fiber/resin ratio of 7:3 was arrived. The tensile strength of GFRP bars is comparable to that of the mild steel as per the tests carried out, but the modulus of elasticity is about 25-30 percentage of that of steel bars. This paper deals with the experimental investigations carried out on small slab panels supported on all four edges with effective spans of 0.9 m ~ 0.45 m, which is a part of large research problem undertaken with different ratios of 10ng span to short span with different support conditions. The test results are compared with similar slab panels reinforced with conventional mild steel bars.
参考文献9
-
1ACI 440 - Guide for The Design and Construction of Concrete Reinforced with FRP bars.
-
2Amr EI-Ragaby, Ehab EI-Salakawy and Brahim Benmokrane, Fatigue analysis of bridge deck slabs reinforced with E-glass/Vinyl ester FRP reinforcement bars, Composites: Part B 38 (2007) 703-711.
-
3IS 456-2000 Code of practice for plain and reinforced concrete, Beaureau of Indian Standards, New Delhi.
-
4J. Braun and M. Eskridge, Concrete reinforced with glass fiber bars: Innovative and cost-effective solutions, in: Proceedings of ICFRC International Conference on Fiber Composites, High Performance Concretes and Smart Materials, Chennai: India, Jan. 8-10, 2004, pp. 337-351.
-
5Luciano Ombres, Tarek Alkhrdaji and Antonio Nanni, Flexural analysis of one way concrete slabs reinforced with GFRP rebars, in: I. Crivelli-Visconta (Ed.), International Meeting on Composite Materials, PLAST 2000, Proceedings, Advancing with Composites 2000, Milan, Italy, May 9-11, 2000, pp. 243-250.
-
6P. J. Rao, K. J. Rao, N. V. R. C. Bala Bhaskar and M. V. Seshagiri Rao, Flexural behaviour of GFRP reinforced beams in local environment - an experimental study, in: Proceedings of the International Conference "ISEC-2008", held at Melbourne, Australia.
-
7V. Ramakrishnan and K. Ramesh Panchalan, A new construction material - Non corrosive basalt rebar reinforced concrete, in: Proceedings of the International Conference ICACC-2004, Hyderabad: India, 16-18 Dec. 2004.
-
8S. E. Taylor and Barry Mullin, Arching action in FRP reinforced concrete slabs, Construction and Building Materials 20 (2006) 71-80.
-
9M. Theriault and B. Benmokrane, Effects of FRP reinforcement ratio and concrete strength on flexural behaviour of concrete beams, Journal of Composites for Constructions 2 (1) (1998) 7-16.
-
1杨茂森.推荐钢纤维增强混凝土复合材料新技术[J].施工与管理,1990(11):24-34.
-
2张峰,宋碧涛,姚晓.纤维在水泥混凝土中的应用[J].江苏建材,2003(1):21-23. 被引量:3
-
3金玉杰,肖力光.环氧树脂混凝土研究现状及其应用[J].吉林建筑工程学院学报,2011,28(1):37-40. 被引量:13
-
4张峰.纤维在水泥混凝土中的应用[J].中国建材,2004(10):70-71. 被引量:2
-
5新的塑料—混凝土复合材料[J].安徽建材,1995(3):45-45.
-
6张丽萍,陈晓春,孔英.一种特殊泵送商品砼的配合比研究[J].山东建材,2005,26(2):64-66.
-
7超高韧性水泥基复合材料(ECC)高峰论坛将在京举行[J].混凝土世界,2012(7):101-101.
-
8沈丽虹,张强.纤维增强混凝土的动态性能研究[J].山西建筑,1999,25(1):42-44.
-
9田华,尚建丽,孟宏睿.模糊聚类分析理论的新应用——对预拌混凝土高性能化质量控制的研究[J].陕西工学院学报,2003,19(4):19-22. 被引量:2
-
10田华,尚建丽,孟宏睿.模糊聚类分析对预拌混凝土的质量控制[J].混凝土,2003(10):44-45. 被引量:1
