Flexural performance of RC beams externally strengthened with a single-layer of basalt fiber reinforced polymer sheets

Sarah Kadhim, M. Özakça
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引用次数: 1

Abstract

Basalt Fiber Reinforced Polymer (BFRP) is an environment friendly strengthening material that can be used in several engineering applications. In this research, an experimental program was directed to investigate the BFRP strengthening adequacy of reinforced concrete beams. Eight simple-span beams were tested under the four-point bending test and were all made from the same concrete mixture. One layer of BFRP was applied on the soffit of B1, while this layer was wrapped partially along the sides of beams B2, B3, and B4 with vertical side extensions of 25, 75, and 105 mm, respectively, to evaluate the effect of vertical extension of the bottom BFRP layer on the flexural behavior of the strengthened beams. The beams B5 and B6 were strengthened with three BFRP U-strips along the flexural span without and with a bottom layer of BFRP sheet, respectively. On the other hand, the bottom and side surfaces of B7 were fully wrapped with a layer of BFRP, while B0 was kept without strengthening as a reference beam. The test results showed that strengthening with BFRP can noticeably improve the beam load capacity at cracking, yield, and ultimate stages. The ductility of strengthened beams was less than B0 by up to 33% for partial side strengthening and 45% for full side strengthening, while the toughness of all strengthened beams was higher than that of reference beam by 8–78%. The results also showed that increasing the vertical side extension of the bottom BFRP layer leads to significant load capacity increase.
单层玄武岩纤维增强聚合物板外加固RC梁的抗弯性能
玄武岩纤维增强聚合物(BFRP)是一种环境友好型增强材料,可用于多种工程应用。本研究采用试验方案,对钢筋混凝土梁的BFRP加固充分性进行了研究。8根单跨梁进行了四点弯曲试验,均由相同的混凝土混合料制成。在B1梁的软肋处铺设一层BFRP,并沿B2、B3和B4梁的侧边部分包裹该层,其竖向延伸量分别为25、75和105 mm,以评价底部BFRP层竖向延伸对加固梁抗弯性能的影响。B5和B6梁沿弯跨分别采用3根BFRP u形条加固,底部不加BFRP薄板,底部加BFRP薄板。另一方面,B7的底面和侧面被BFRP完全包裹,而B0作为参考梁保留不加强。试验结果表明,BFRP加固能显著提高梁在开裂、屈服和极限阶段的承载能力。加固梁的部分侧强化和全侧强化的延性分别比基准梁低33%和45%,而所有加固梁的韧性均比基准梁高8-78%。结果还表明,增加底部BFRP层的竖向侧长可以显著提高承载能力。
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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