使用灌浆和 FRP 片材加固因钢筋锈蚀而修复的钢筋混凝土梁的挠曲行为

R. Djamaluddin, R. Irmawaty, .. Fakhruddin, Kohei Yamaguchi
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摘要

靠近海线的混凝土结构损坏的常见原因之一是混凝土中的钢筋锈蚀,这可能会导致混凝土覆盖层剥落。本文介绍了采用灌浆法和玻璃钢加固法对锈蚀钢筋混凝土梁进行修复的模拟结果。为模拟混凝土剥落的修复,梁试件受拉侧的混凝土覆盖层用灌浆混凝土填充,而不是用普通混凝土填充。在单调荷载下,制备并测试了三种类型的梁试件。BG 和 BPF 分别是仅灌浆的梁试件和灌浆并使用玻璃钢片进行抗弯加固的梁试件。使用 FRP 片材进行抗弯加固是为了恢复抗弯能力。作为对比,还制备了普通钢筋混凝土(BN)形式的对照梁。结果表明,与对照梁(BN)相比,BG 梁的承载力仅为 50%。然而,在 BGF 型横梁上使用玻璃纤维片材进行抗弯加固后,其承载能力与 BN 型试样大致相同。这表明,在受损混凝土盖板上灌浆并使用 FRP 片材加固的修复方法是修复腐蚀钢筋混凝土梁的有效替代方法。Doi: 10.28991/CEJ-2024-010-014 全文:PDF
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flexural Behavior of Repaired Reinforced Concrete Beams Due to Corrosion of Steel Reinforcement Using Grouting and FRP Sheet Strengthening
One of the common causes of damage to the concrete structures close to the sea line is corrosion on the steel reinforcement in the concrete, which may cause spalling on the concrete cover. This paper presents the results of the simulation of the corroded reinforced concrete beams, which were repaired using the grouting method and FRP strengthening. The concrete cover of the beam specimens on the tensile side was filled with grouted concrete instead of filled with normal concrete to simulate the repair of concrete spalling. Three types of beam specimens were prepared and tested under a monotonic loading. BG and BPF were the specimens for beams with grouting only and beams with grouting and flexural strengthening using FRP sheets, respectively. Flexural strengthening using FRP sheets was carried out to restore the flexural capacity. As a comparison, control beams were also prepared in the form of normal reinforced concrete (BN). The results showed that the BG beam had a capacity of only about 50% compared to the control beam (BN). However, applying flexural strengthening using FRP sheet as on the type BGF beams showed that it had approximately the same capacity as BN specimens. This indicated that the repair method using grouting on damaged concrete covers and strengthening using FRP sheets was an effective alternative to repairing the corroded reinforced concrete beams. Doi: 10.28991/CEJ-2024-010-01-014 Full Text: PDF
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