Structural performance of RC beams with openings shear strengthened by hybrid techniques (EBR/EBRIG)

IF 2.2 4区 工程技术 Q2 ENGINEERING, CIVIL
Ahmed H. Abdel-Kareem, Mohamed Elprince, Mohamed. H. Makhlouf
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Abstract

AbstractCreating the openings in the existing reinforced concrete (RC) beams causes sudden deterioration, especially in the shear zone. This study investigates the effectiveness of a novel strengthening technology using externally reinforced fibre-reinforced polymer (FRP) strips in groves (EBRIG) on the shear behaviour of RC beams, compares it to that of externally reinforced (EBR) strips, and uses hybridisation between them to address the weakness brought on by the presence of an opening in the shear zone. Also, an innovative anchorage mechanism is suggested and studied to postpone the beginning of the strengthening system’s debonding. The strengthening material used in this research is glass fibre-reinforced polymers (GFRPs). For this study, 11 RC beams with an opening and a control beam without an opening, each measuring 120 × 300 × 2600 mm in size, were cast and subjected to the four-point loading test. All test beams had the same geometry and reinforcement details. The effect of the following parameters was investigated in this study: the dimension of the opening (square ‘150 × 150’ or rectangle ‘100 × 300’ mm), the strengthening technique used (externally bonded reinforcement [EBR], EBRIG and hybrid technique ‘EBRIG + EBR’) and the wrapping configuration of the strengthening (fully warped strips or U-shaped sheets with anchors). All techniques used raised the efficiency of shear resistance to approximate the fading effect of the opening, especially the technique of hybridising EBRIG and EBR. All strengthened beams showed an increase in the ultimate shear capacity ranging from 74% to 142% compared with the reference beams with the opening. The EBRIG technique shows numerous advantages over the EB system and can employ the strength of FRP materials. It also deals with the problems of weather factors that were facing EBR, and this is because of the covering that protects in the EBRIG technique. The technique to hybridize EBRIG and EBR was more effective at withstanding shear.Keywords: Reinforced concretefibre-reinforced polymer (FRP)strengtheningexternally bonded reinforcement in grove (EBRIG)hybridise EBRIG/EBR Data availability statementThe data that has been used is confidential.Disclosure statementNo potential conflict of interest was reported by the authors.
混合技术(EBR/EBRIG)加固开孔剪力混凝土梁的结构性能
摘要在既有钢筋混凝土(RC)梁上开孔会引起突然劣化,特别是在受剪区。本研究调查了一种使用外部增强纤维增强聚合物(FRP)带状格栅(EBRIG)的新型增强技术对RC梁剪切性能的有效性,将其与外部增强(EBR)带状进行了比较,并使用它们之间的杂交来解决剪切区存在缺口带来的弱点。提出并研究了一种创新的锚固机制,以推迟加固体系的脱粘开始时间。本研究使用的增强材料是玻璃纤维增强聚合物(gfrp)。在这项研究中,11个RC梁与一个开放和控制梁没有开放,每个测量120×300×2600毫米大小,是演员和四点加载测试。所有测试光束有相同的几何和强化细节。以下参数的影响在本研究调查:开放的维数(150×150的平方或矩形的100×300毫米),加强技术(外部保税钢筋(EBR) EBRIG和混合动力技术EBRIG + EBR)和包装配置的加强(与锚完全扭曲的条状或u型表)。所有使用的技术都提高了抗剪切效率,以近似于开口的衰落效应,特别是混合EBRIG和EBR技术。所有加固梁的抗剪承载力均较开孔对照梁提高了74% ~ 142%。EBRIG技术显示了EB众多优势系统,可以采用玻璃钢材料的强度。它还处理了EBR所面临的天气因素的问题,这是因为EBRIG技术中的覆盖物起到了保护作用。EBRIG和EBR杂交技术在抗剪切方面效果更好。关键词:钢筋混凝土;纤维增强聚合物(FRP);外接加固(EBRIG);披露声明作者未报告潜在的利益冲突。
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
European Journal of Environmental and Civil Engineering
European Journal of Environmental and Civil Engineering ENGINEERING, CIVIL-ENGINEERING, GEOLOGICAL
CiteScore
4.80
自引率
4.80%
发文量
153
审稿时长
6 months
期刊介绍: The European Research Area has now become a reality. The prime objective of the EJECE is to fully document advances in International scientific and technical research in the fields of sustainable construction and soil engineering. In particular regard to the latter, the environmental preservation of natural media (soils and rocks) and the mitigation of soil-related risks are now not only major societal challenges, but they are also the source of scientific and technical developments that could be extremely beneficial.
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