收缩:部分替代再生橡胶混凝土的混合配筋T梁的非线性分析

IF 1.1 Q3 ENGINEERING, CIVIL
Sulaiman Nayef Ahmed, Ahmad L. Almutairi, Wassim B. Domat
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引用次数: 0

摘要

摘要目前,由于工业废料对环境的有害影响,对其利用的需求正在增加。本文研究了部分替代再生橡胶混凝土的混合加固T型梁的受力性能。利用ANSYS 15版程序进行有限元建模。它还包含了创建混凝土模型所需的所有步骤,这些模型是为了研究部分替代再生橡胶混凝土(RRC)梁的性能而准备的。梁的钢筋是聚合物GFRP和钢筋的各种组合。通过按体积计7.5%、10%和12.5%的部分替代制备橡胶混凝土混合物。跨中截面GFRP与钢筋的比例是研究的第二个参数。由于大量参数会影响部分替代再生橡胶混凝土的混合配筋T梁的性能,因此使用ANSYS 15版程序进行了广泛的参数研究。研究了三个参数,即:;底部RFT、混凝土抗压强度以及开口的存在。分析结果与实验结果在破坏模式和破坏载荷值方面一致。结果表明,虽然试样的抗弯承载力随着橡胶颗粒的加入而降低,但其自重也有所降低。部分替代再生橡胶混凝土梁的破坏荷载随着GFRP筋或CFRP筋底部加固的增加而增加。此外,CFRP加固梁的破坏荷载高于GFRP加固梁。在部分替代再生橡胶混凝土的混合加固T型梁中设置开口降低了梁的承载能力和最大挠度。此外,在混合加固T型梁的开口附近使用GFRP筋和CFRP筋可以提高这些梁的承载能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Retracted: Non-Linear Analysis of Hybrid Reinforced T- Beam with Partial Substitution Recycled Rubberized Concrete
Abstract At present, the need to make use of industrial waste materials is increasing due to their harmful effects on the environment. In the present work, the behavior of hybrid reinforced T-Beam with partial substitution recycled rubberized concrete is studied. The finite element modeling by using ANSYS version 15 program. It contains also all the required steps needed to create the concrete models that were prepared to study the behavior of beams with partial substitution recycled rubberized concrete (RRC). The reinforcement of beams was various combinations of polymer GFRP and steel bars. The Rubberized concrete mixes were prepared by partial substitution 7.5 %, 10 %, and 12.5 % replacements by volume. The ratio of GFRP to steel reinforcement at mid‐span section was the second parameter investigated. Due to the large number of parameters affecting the behavior of Hybrid Reinforced T- Beam with partial substitution Recycled Rubberized Concrete, an extensive parametric study was performed using ANSYS version 15 program. Three parameters were investigated namely; Bottom RFT, compressive strength of concrete, and the existence of opening. The analytical results agree well with the experimental results in terms of mode of failure and the failure load values. The results indicated that although the flexural capacity of the tested specimen decreased with the addition of Crumb Rubber and reduced its self-weight. The failure load of the beam with partial substitution recycled rubberized concrete increases with bottom reinforcement by the GFRP bar or CFRP bar. Also, reinforced beams by CFRP bars had a higher failure load than reinforced beams by GFRP bars. Having an opening in hybrid reinforced T-Beam with partial substitution recycled rubberized concrete reduced the beam load capacity and maximum deflection. Also, using GFRP bars, and CFRP bars in the vicinity of openings in hybrid reinforced T-Beams increased the load capacity of these beams.
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来源期刊
CiteScore
2.00
自引率
58.30%
发文量
69
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