加固玻璃钢修补的末端锚固

SP-230: 7th International Symposium on Fiber-Reinforced (FRP) Polymer Reinforcement for Concrete Structures Pub Date : 2005-10-01 DOI:10.14359/14846

M. Chajes, W. Finch, H. Shenton

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引用次数: 0

摘要

摘要:当使用外粘结复合材料板加固混凝土结构时，混凝土与板之间的粘结通常在板的抗拉能力达到之前就失效了。为提高混凝土与钢板的粘结性能，探索了在混凝土与钢板之间使用复合织物的方法。测试了6个拉伸发展试件，以确定CFRP板在剥离前可以施加的最大拉伸载荷。三个试件有一个Sika CarboDur条直接粘合到混凝土上，而另外三个试件有一个CarboDur条粘合到两层Sikawrap Hex 230C织物材料上。织物被用来将载荷分布在更大的粘合区域上。无纤维织物的试件在平均60.5 kN的荷载下破坏，有纤维织物的试件在平均92.6 kN的荷载下破坏。这些破坏荷载分别占板承载力的18%和27.5%。

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Enhanced End Anchorage of Bonded FRP Repairs

Synopsis: When strengthening concrete structures using externally bonded composite material plates, the bond between the concrete and plate typically fails well before the plate’s tensile capacity is achieved. To enhance the bond performance, using composite fabric between the plate and the concrete was explored. Six tension development specimens were tested to determine the maximum tensile load that could be applied to a CFRP plate before it debonded. Three specimens had a Sika CarboDur strip bonded directly to the concrete, while three others had the CarboDur strip bonded to two plies of Sikawrap Hex 230C fabric material. The fabric was used to distribute the load over a larger bond area. The specimens without fabric failed at an average load of 60.5 kN while the specimens with the CFRP fabric failed at an average load of 92.6 kN. These failure loads represent 18 % and 27.5% of the plate capacity respectively.

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SP-230: 7th International Symposium on Fiber-Reinforced (FRP) Polymer Reinforcement for Concrete Structures

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