GFRP筋加筋两肋板的抗弯性能

Journal of Sustainable Civil Engineering and Technology Pub Date : 2023-03-28 DOI:10.24191/jscet.v2i1.22-35

A. Baharin, H. Ahmad, Muhammad Haziq Hizdrami

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引用次数: 0

摘要

本文介绍了钢纤维(SF)与玻璃纤维增强聚合物(GFRP)筋组合代替钢筋在带肋楼板结构中的应用试验研究结果。钢纤维增强混凝土(SFRC)具有减少裂缝形成和提高混凝土抗拉强度的良好能力，使其成为众多民用建筑应用的有吸引力的复合材料。然而，先前的研究表明，钢纤维是否能自行取代钢筋的性能仍存疑问。因此，由于GFRP筋的结构性能具有重量轻，耐腐蚀的抗弯钢筋，因此选择GFRP筋。研究了钢纤维和玻璃钢筋对双肋板抗弯性能的影响。浇筑了三(3)块板，包括一块实心SFRC板(solid- sf)，一块SFRC带肋板(rib-SF)和一块用GFRP筋加固的SFRC带肋板(rib-SF-GFRP)。所有厚度为1000 mm x 1500 mm x 75 mm的板试件在弯曲下进行了测试，结果表明，用GFRP(肋- sf -GFRP)加固的SFRC带肋板通过表现出最高的首次裂缝和极限荷载而具有有效的弯曲性能。

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Flexural Behaviour of Two Ribbed SFRC Slab Reinforced with GFRP Bars

This study presents the results of an experimental investigation on the application of steel fibres (SF) in combination with glass fibre reinforced polymer (GFRP) bars as the steel reinforcement replacement in a ribbed slab structure. The promising ability of steel fibre reinforced concrete (SFRC) to reduce the formation of cracks and increase the tensile strength of concrete has made it an attractive composite material for numerous civil construction applications. However, previous research had shown that the performance of the steel fibres on their own to replace steel reinforcements is still in doubt. Therefore, the GFRP bar is chosen due to its structural performance with flexural reinforcement with less weight and corrosion resistance. The influence of the steel fibres and GFRP bars on the two-ribbed slab flexural performance was investigated. Three (3) numbers of slab panels were cast, consisting of one solid SFRC slab (solid-SF), one SFRC ribbed slab (rib-SF), and one SFRC ribbed slab reinforced with GFRP bars (rib-SF-GFRP). All slab samples measuring 1000 mm x 1500 mm x 75 mm thickness were tested under bending and the results showed that the SFRC ribbed slab reinforced with GFRP (rib-SF-GFRP) is efficient in the flexural performance by exhibiting the highest first crack and ultimate load.

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来源期刊

Journal of Sustainable Civil Engineering and Technology

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