Performance of Steel I-Beams Strengthened by Fastening Hybrid FRP Strips

Proceedings of the 4th International Conference on Civil, Structural and Transportation Engineering (ICCSTE'19) Pub Date : 2020-11-01 DOI:10.11159/iccste20.240

Omnia R. AbouEl-Hamd, A. Sweedan, Bilal El-Ariss

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Abstract

Fiber-Reinforced Polymers (FRPs) have been widely used in strengthening steel structures. Few researches were conducted to verify the adequacy of strengthening steel structures by fastening FRPs. The current paper reports on the outcomes of an experimental study aimed at strengthening steel I-beams by fastening hybrid FRP (HFRP) strips. A total of ten UB203x102x23 beams were tested in a four-point loading setup. Steel bolts were used to fasten the HFRP strips to the beam bottom flange. The effect of HFRP length was assessed by considering three scenarios (1,620, 1,170 and 810 mm) that correspond to 90%, 65% and 45% of the clear span length of tested beams. Single and double HFRP strips were utilized to evaluate the effect of HFRP thickness on the performance of the strengthened beams. Staggered and uniform bolt arrangements were used to assess the effect of bolt arrangement on the performance of the fastened systems. All strengthened beams exhibited better yield and ultimate strength as compared to the control beam. Fastening two HFRP strips with lengths of 90% of the beam clear span revealed 21% enhancement in the ultimate capacity of the strengthened beam.

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复合frp筋加固工字钢的性能研究

纤维增强聚合物(frp)在钢结构加固中有着广泛的应用。验证frp加固钢结构的充分性的研究很少。本文报告了一项旨在通过紧固混合FRP (HFRP)条加强钢工字钢的实验研究的结果。在四点加载设置中，总共测试了10根UB203x102x23梁。钢螺栓用于将HFRP条固定在梁底法兰上。HFRP长度的影响是通过考虑三种情况(1,620、1,170和810 mm)来评估的，这三种情况对应于测试梁的净跨长度的90%、65%和45%。采用单层和双层HFRP条对加固梁的性能进行了评价。采用交错和均匀螺栓布置来评估螺栓布置对紧固系统性能的影响。与对照梁相比，所有加固梁都表现出更好的屈服和极限强度。固定两条HFRP条，长度为梁净跨的90%，加固梁的极限承载力提高了21%。

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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Proceedings of the 4th International Conference on Civil, Structural and Transportation Engineering (ICCSTE'19)

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