STUDY ON FLEXURAL PERFORMANCE OF ARCHITECTURAL CONCRETE BEAMS UNDER STEEL BAR CORROSION CONDITIONS

Q4 Engineering

International Journal of Mechatronics and Applied Mechanics Pub Date : 2023-11-29 DOI:10.17683/ijomam/issue14.27

Qing Su

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Abstract

- Reinforcement corrosion is a common phenomenon in construction, which can significantly impact the performance of building structures. This article designed reinforced concrete (RC) beams with different corrosion conditions (10 days/30 days under electric current) and varying sustained load levels (30%/60%) and briefly introduced specimen preparation, corrosion simulation, sustained loading, and loading methods to understand the flexural performance of different RC beams. The results showed that with an increase in both the number of corrosion days and load levels, the corrosion rate of the RC beams increased. The corrosion rate of F6C3 reached 10.34%; the number of transverse cracks in F6C3 decreased, and the average crack spacing increased. For F0C0 and F6C3, there were 21 and 7 transverse cracks respectively, and the average crack spacings were 78.64 mm and 262.33 mm respectively. Both the number of vertical cracks and the maximum crack width increased. The cracking moment for F0C0 was 11.21 kN·m, and its ultimate bending moment was 64.62 kN·m. The cracking moment for F6C3 was 10.07 kN·m, which was 10.17% lower than that of the F0C0, and its ultimate bending moment was 61.55 kN·m, which was 4.75% lower than that of F0C0. The ultimate bearing capacity of the RC beams also decreased rapidly. The results demonstrate the influence of reinforcement corrosion on the flexural performance of RC beams, which can provide a reference for evaluating and maintaining actual building structures.

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钢筋锈蚀条件下建筑混凝土梁的抗弯性能研究

- 钢筋锈蚀是建筑施工中的常见现象，会严重影响建筑结构的性能。本文设计了不同腐蚀条件（电流下 10 天/30 天）和不同持续荷载水平（30%/60%）的钢筋混凝土（RC）梁，并简要介绍了试样制备、腐蚀模拟、持续荷载和加载方法，以了解不同 RC 梁的抗弯性能。结果表明，随着腐蚀天数和荷载水平的增加，RC 梁的腐蚀速率也在增加。F6C3 的腐蚀率达到 10.34%；F6C3 的横向裂缝数量减少，平均裂缝间距增大。F0C0 和 F6C3 的横向裂缝分别为 21 条和 7 条，平均裂缝间距分别为 78.64 mm 和 262.33 mm。垂直裂缝的数量和最大裂缝宽度都有所增加。F0C0 的开裂力矩为 11.21 kN-m，极限弯矩为 64.62 kN-m。F6C3 的开裂力矩为 10.07 kN-m，比 F0C0 低 10.17%，极限弯矩为 61.55 kN-m，比 F0C0 低 4.75%。RC 梁的极限承载力也迅速下降。结果表明了钢筋锈蚀对 RC 梁抗弯性能的影响，可为实际建筑结构的评估和维护提供参考。

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

International Journal of Mechatronics and Applied Mechanics Materials Science-Materials Science (all)

CiteScore

0.80

自引率

0.00%

发文量

期刊介绍： International Journal of Mechatronics and Applied Mechanics is a publication dedicated to the global advancements of mechatronics and applied mechanics research, development and innovation, providing researchers and practitioners with the occasion to publish papers of excellent theoretical value on applied research. It provides rapid publishing deadlines and it constitutes a place for academics and scholars where they can exchange meaningful information and productive ideas associated with these domains.