Effects of Hybrid Fiber on Flexural Behavior of Green RC Beams in Oman Sea

International Journal of Coastal and Offshore Engineering Pub Date : 2021-01-01 DOI:10.52547/ijcoe.5.2.1

Hamed Safayenikoo

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Abstract

Article History: Received: 15 Jan. 2021 Accepted: 27 Apr. 2021 Steel rebar corrosion because of the cracks in marine reinforced concrete (RC) structures is the main type of deterioration that leads to decrease the loadcarrying capacity, ductility, and service life. The use of different fibers such as steel fiber (SF), glass fiber (GF), and polypropylene fiber (PF) in RC beams can reduce the cracks and increase the load-bearing capacity and toughness of RC beams. Moreover, it seems that RC beams containing hybrid of SF, GF, and PF have been higher flexural capacity and toughness rather than RC composites with only one type of fiber. However, the role of mono or hybrid fiber will be depended on environmental conditions. Consequently, load-bearing capacity and toughness of Green RC beam with 15% metakaolin (MK) as a cement replacement, containing SF, PF, GF, (S+P)F, and (S+G)F as fibers, at 28, 90, and 180 days in tidal zone of Oman Sea were determined. The dimension of the beams was 200×200×750 mm. The fibers included macro and microfibers. Macro fiber was steel with 50 mm length. Microfibers were GF and PF with 12 mm length. Results indicated that by the addition of PF, GF, SF, (S+P)F, and (S+G)F to RC beams the load-bearing capacity and toughness are increased up to 41%. Meanwhile, the hybrid effect of fiber was more than the mono one.

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混杂纤维对阿曼海绿色RC梁受弯性能的影响

文章历史:收件日期:2021年1月15日接受日期:2021年4月27日海洋钢筋混凝土(RC)结构中钢筋腐蚀是导致其承载能力、延性和使用寿命降低的主要劣化类型。在RC梁中使用钢纤维(SF)、玻璃纤维(GF)、聚丙烯纤维(PF)等不同的纤维，可以减少裂缝，提高RC梁的承载能力和韧性。此外，似乎含有SF, GF和PF混合的RC梁比只有一种纤维的RC复合材料具有更高的抗弯能力和韧性。然而，单纤维或混合纤维的作用将取决于环境条件。因此，在阿曼海潮带，以15%偏高岭土(MK)作为水泥替代品，以SF、PF、GF、(S+P)F和(S+G)F为纤维，测定了28、90和180天的Green RC梁的承载能力和韧性。梁的尺寸为200×200×750 mm。纤维包括宏纤维和微纤维。宏纤维为钢，长度为50mm。微纤维为GF和PF，长度均为12mm。结果表明，添加PF、GF、SF、(S+P)F和(S+G)F后，RC梁的承载力和韧性提高了41%。同时，纤维的混杂效应大于单一效应。

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 Coastal and Offshore Engineering

自引率

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审稿时长

16 weeks