Structural response of high strength concrete beams using fiber reinforced polymers under reversed cyclic loading

Sustainable Structures Pub Date : 2022-06-01 DOI:10.54113/j.sust.2022.000018

Adam Guo

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引用次数: 8

Abstract

This paper investigates the response of high strength concrete (HSC) beams subjected to reversed cyclic loading using carbon fiber-reinforced polymer (CFRP), glass fiber-reinforced polymers (GFRP), and hybrid FRP/steel bars as bottom tensile reinforcement. Five HSC beams with a rectangular cross-section were prepared and poured using with a 28-day concrete compressive strength of 60 MPa (8.7 ksi). A displacement-controlled reversed cyclic loading has been applied to all the beams. The test setup has been designed to represent seismic effect on structures. Flexural capacity, concrete and reinforcement steel strains, cracking behavior, and ductility results were obtained. The hybrid steel/FRP has shown an improved performance in terms of flexural capacity, strains, and ductility. While the inclusion of FRP grids reduces the flexural capacity, this can be improved by adding more layers of FRP. Overall, the nominal moment of the hybrid sections were the highest between all beams. The ACI 318 code’s empirical equations showed close results in terms of the tensile strength of the FRP. The ACI 440R has shown overestimated nominal moment values compared to the experimental results.

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反循环荷载作用下纤维增强聚合物高强混凝土梁的结构响应

本文研究了采用碳纤维增强聚合物(CFRP)、玻璃纤维增强聚合物(GFRP)和混合FRP/钢筋作为底部拉伸钢筋的高强混凝土(HSC)梁在反向循环荷载下的响应。采用混凝土28天抗压强度为60 MPa (8.7 ksi)的混凝土浇筑了5根矩形截面的HSC梁。所有梁都施加了位移控制的反向循环荷载。试验装置的设计是为了反映地震对结构的影响。获得了抗弯能力、混凝土和钢筋应变、开裂行为和延性结果。钢/FRP复合材料在抗弯能力、应变和延性方面表现出更好的性能。虽然FRP格栅降低了抗弯能力，但这可以通过添加更多的FRP层来改善。总体而言，混合截面的名义弯矩在所有梁之间是最高的。ACI 318规范的经验方程在FRP的抗拉强度方面显示出接近的结果。与实验结果相比，ACI 440R显示出高估的标称力矩值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Sustainable Structures

CiteScore

14.20

自引率

0.00%

发文量