Effects of GFRP Stirrup Spacing on the Behavior of Doubly GFRP-Reinforced Concrete Beams

Musa AbdulMuttalib Issa, A. Allawi, Nazar Oukaili
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Abstract

This study investigates the impact of varying glass fiber-reinforced polymer (GFRP) stirrup spacing on the performance of doubly GFRP-reinforced concrete beams. The research focuses on assessing the behavior of GFRP-reinforced concrete beams, including load-carrying capacity, cracking, and deformability. It explores the feasibility and effectiveness of GFRP bars as an alternative to traditional steel reinforcement in concrete structures. Six concrete beams with a cross-section of 300 mm (wide) × 250 mm (deep), simply supported on a 2100 mm span, were tested. The beams underwent four-point bending with two concentrated loads applied symmetrically at one-third of the span length, resulting in a shear span (a)-to-depth (h) ratio of 2.8. The experimental findings reveal that altering the GFRP stirrup spacing along the longitudinal axis of the beams, from 200 mm (equivalent to the effective depth (d)) to 50 mm (equal to (d⁄4)), altered the mode of failure from flexure-shear to flexure-compression. However, when the spacing was equal to or less than (d⁄3), there was no significant improvement in load-carrying capacity, as the contribution of GFRP bars in resisting shear loads was limited. Under service loads, the GFRP-reinforced beams exhibited wider cracks, but reducing the stirrup spacing helped restrain crack widening. Incorporating GFRP bars in the compression zone had a positive effect on reducing crack width in the tension zone. Additionally, using GFRP stirrups with spacing varying between (d) and (d⁄2) in the pure bending region increased the deflection ductility indexes. To enhance the ductility of GFRP-reinforced concrete beams, it is recommended to use GFRP stirrups in the pure bending region with spacing greater than the spacing between GFRP stirrups in the shear spans. The study highlights that the current ACI code overestimates the shear capacity provided by GFRP stirrups, particularly when the spacing is less than or equal to (d⁄3). Doi: 10.28991/CEJ-2024-010-02-011 Full Text: PDF
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GFRP 箍筋间距对双层 GFRP 加固混凝土梁行为的影响
本研究探讨了不同的玻璃纤维增强聚合物(GFRP)箍筋间距对双层 GFRP 增强混凝土梁性能的影响。研究重点是评估 GFRP 加固混凝土梁的行为,包括承载能力、开裂和变形能力。研究探讨了在混凝土结构中使用 GFRP 钢筋替代传统钢筋的可行性和有效性。测试了六根横截面为 300 毫米(宽)×250 毫米(深)、跨度为 2100 毫米的混凝土梁。这些梁在跨度三分之一处对称施加两个集中荷载进行四点弯曲,结果剪切跨度(a)-深度(h)比为 2.8。实验结果表明,将 GFRP 箍筋沿梁纵向轴线的间距从 200 毫米(相当于有效深度 (d))改为 50 毫米(相当于 (d⁄4)),可将破坏模式从挠曲-剪切改为挠曲-压缩。然而,当间距等于或小于(d⁄3)时,由于 GFRP 杆件对抵抗剪切荷载的贡献有限,因此承载能力没有显著提高。在使用荷载下,GFRP 加固梁的裂缝更宽,但减少箍筋间距有助于抑制裂缝扩大。在受压区加入 GFRP 钢筋对减少受拉区的裂缝宽度有积极作用。此外,在纯弯曲区域使用间距介于(d)和(d⁄2)之间的 GFRP 箍筋可提高挠度延性指数。为提高 GFRP 加固混凝土梁的延性,建议在纯弯曲区域使用间距大于剪切跨中 GFRP 箍筋间距的 GFRP 箍筋。该研究强调,现行 ACI 规范高估了 GFRP 箍筋的抗剪能力,尤其是当间距小于或等于 (d⁄3) 时。Doi: 10.28991/CEJ-2024-010-02-011 全文:PDF
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