Replacement of Stirrups by Steel Fibers in Shear Dominant UHPFRC Beams

Turkish Journal of Civil Engineering Pub Date : 2023-03-01 DOI:10.18400/tjce.1237663

Umut Hasgül, A. Yavas, Tamer Birol

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Abstract

In the present study, the impacts of variety of fiber types and amounts on shear dominant Ultra High Performance Fiber Reinforced Concrete (UHPFRC) beams and the feasibility of fully replacement of stirrups by the steel fibers were investigated. Fifteen UHPFRC beams containing five different fiber types and three volume fractions were prepared without stirrup and were loaded under four-point loading. The influences of steel fiber were discussed in terms of the load-deflection behavior, cracking behavior, collapse modes, ultimate shear strength, nominal moment capacity and deflection ductility. The steel fiber use prominently increased the post-cracking stiffness and load capacity of the UHPFRC beams with the help of the fibers’ crack-bridging ability. Conversely, the steel fibers in different types didn’t have an importance on the collapse mode of the shear dominant UHPFRC beams. The use of straight steel fibers in the UHPFRC beams, even at very low volume fractions of 0.5%, changed the collapse condition from shear to flexure resulting in a ductile behavior. But the hooked fiber inclusion by 1.5 vol% at least is needed to guarantee the flexural behavior regardless of hooked or multi hooked-end form.

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在抗剪优势的UHPFRC梁中用钢纤维代替箍筋

在本研究中，研究了不同纤维类型和用量对超高性能纤维混凝土(UHPFRC)梁抗剪优势的影响，以及钢纤维完全替代箍筋的可行性。在不加箍箍的情况下，制备了15根含有5种不同纤维类型和3种体积分数的UHPFRC梁，并进行了四点加载。从荷载-挠曲性能、开裂性能、破坏模式、极限抗剪强度、名义弯矩承载力和挠曲延性等方面讨论了钢纤维的影响。钢纤维的使用显著提高了UHPFRC梁的开裂后刚度和承载能力，这得益于钢纤维的裂缝桥接能力。相反，不同类型的钢纤维对UHPFRC剪力优势梁的破坏模式没有影响。在UHPFRC梁中使用直钢纤维，即使在非常低的0.5%体积分数下，也可以将破坏条件从剪切改变为弯曲，从而产生延性行为。但无论钩端形式还是多钩端形式，都需要至少1.5 vol%的钩端纤维包涵量来保证其抗弯性能。

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

Turkish Journal of Civil Engineering

CiteScore

1.70

自引率

0.00%

发文量