Evaluation of hybrid NSM-CFRP technical bars and FRP sheets for seismic rehabilitation of a concrete bridge pier

Pub Date : 2023-01-06 DOI:10.3233/brs-290180
Mohamad R. Shokrzadeh, F. Nateghi-Alahi
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引用次数: 1

Abstract

Seismic retrofit is a cost-effective and sustainable solution for improving bridge structures in seismic zones. Fiber Reinforced Polymer (FRP) is commonly used to replace steel components in retrofit projects due to their light weight, high strength, and high corrosion resistance. The fabrication of novel hybrid structures from FRP and concrete is the next step researchers are addressing. In this context, the present study focuses on numerical modeling of the experimentally determined response of a hybrid FRP and concrete bridge pier subjected to quasi-static tests. The results from FEM showed strong agreement with the experimental response in terms of load-displacement curve and failure mode. After validating the model, alternative designs (changing the height of the CFRP slab, changing the height and compaction of the CFRP bar, and concrete encasement with and without CFRP slab) were numerically tested to investigate the effects of each model on the load capacity. With the conventional concrete encasement, the bearing capacity of the bridge pier can be rehabilitated, but with the CFRP plate in the above system, the bearing capacity of the bridge pier is increased by more than 60%. Therefore, it can be concluded that seismic strengthening techniques with CFRP sheets and mounted NSM-CFRP bars are suitable for concrete bridge piers.
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NSM-CFRP技术钢筋和FRP片材在混凝土桥墩抗震加固中的应用评价
抗震改造是改善地震区桥梁结构的一种经济高效、可持续的解决方案。纤维增强聚合物(FRP)因其重量轻、强度高、耐腐蚀性强,在改造工程中常用于代替钢构件。由FRP和混凝土制造新型混合结构是研究人员正在解决的下一步。在这种情况下,本研究的重点是对经过准静态试验的FRP和混凝土混合桥墩的实验确定的响应进行数值模拟。有限元计算结果表明,在荷载-位移曲线和破坏模式方面与实验响应非常一致。在验证模型后,对备选设计(改变CFRP板的高度、改变CFRP筋的高度和压实度以及有和没有CFRP板时的混凝土围护结构)进行了数值测试,以研究每个模型对承载能力的影响。使用传统的混凝土围护结构,可以恢复桥墩的承载力,但在上述系统中使用CFRP板,桥墩的承载能力提高了60%以上。因此,可以得出结论,CFRP片材和安装NSM-CFRP钢筋的抗震加固技术适用于混凝土桥墩。
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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