Axial Capacity of Circular Concrete Columns Reinforced with GFRP Bars and Spirals using FEA

机译：GFRP筋和螺旋增强的圆形混凝土柱的轴向承载力的有限元分析。

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This paper presents a numerical study of axial behavior of circular concrete columns reinforced with Glass Fiber Reinforced Polymer (GFRP) bars and spirals. A nonlinear finite element (FE) model was developed using ABAQUS to predict the compressive behavior of the concentrically loaded columns. Initially, the FE model was verified using an existing experimental paper which investigate the axial capacity of circular concrete columns reinforced with GFRP bars and spirals. The concrete used in the experiment had a compressive strength of 41.9 MPa. Parametric study aiming at evaluating the effect of varying the longitudinal and transverse GFRP reinforcement ratios in the columns was carried out. The results indicated that both the ductility and peak load increase when the reinforcement ratio increases. For spirals, when the diameter increases or the pith decreases, the ductility and capacity increase but with keeping a pitch that allows confinement in the case of changing the spiral diameter.

机译：本文介绍了玻璃纤维增强聚合物（GFRP）钢筋和螺旋增强的圆形混凝土柱轴向性能的数值研究。使用ABAQUS建立了非线性有限元（FE）模型，以预测同心加载柱的压缩行为。最初，使用现有的实验论文验证了有限元模型，该论文研究了用GFRP筋和螺旋增强的圆形混凝土柱的轴向承载能力。实验中使用的混凝土的抗压强度为41.9 MPa。进行了旨在评估改变纵向和横向GFRP增强比的影响的参数研究。结果表明，当增强比增加时，延性和峰值载荷均增加。对于螺旋而言，当直径增加或髓直径减小时，延展性和容量会增加，但要保持螺距，以允许在改变螺旋直径的情况下进行限制。

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《Advances in Science and Engineering Technology International Conferences》|2020年|1-6|共6页
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Yousef Awera; Farid Abed;
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GFRP bars; GFRP spiral; Concentric Loading; Compression; FE;

机译：GFRP筋; GFRP螺旋;同心载荷;压缩;有限元;

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1. Axial Capacity of Circular Concrete Columns Reinforced with GFRP Bars and Spirals [J] . Mohammad Z. Afifi, Hamdy M. Mohamed, Brahim Benmokrane Journal of Composites for Construction . 2014,第1期

机译：GFRP筋和螺旋加固圆形混凝土柱的轴向承载力。
2. Circular Concrete Columns and Beams Reinforced with GFRP Bars and Spirals under Axial, Eccentric, and Flexural Loading [J] . Elchalakani Mohamed, Dong Minhao, Karrech Ali, Journal of Composites for Construction . 2020,第3期

机译：GFRP筋和螺旋增强的圆形混凝土圆柱和梁在轴向，偏心和挠曲荷载下的作用
3. Compressive behavior of axially loaded circular hollow concrete columns reinforced with GFRP bars and spirals [J] . AlAjarmeh O. S., Manalo A. C., Benmokrane B., Construction and Building Materials . 2019,第JANa10期

机译：GFRP筋和螺旋增强的轴向受压圆形空心混凝土柱的抗压性能。
4. CONFINEMENT MODEL FOR CIRCULAR CONCRETE COLUMNS REINFORCED WITH GFRP BARS AND GFRP SPIRALS [C] . M.Z. Afifi, H.M. Mohamed., O. Chaallal., Annual conference of the Canadian Society for Civil Engineering . 2015

机译：GFRP筋和GFRP筋加固圆形混凝土柱的约束模型。
5. Behavior of spirally reinforced high-strength concrete columns under axial loading. [D] . Montgomery, David L. 1996

机译：螺旋增强高强度混凝土柱在轴向荷载下的性能。
6. Flexural Capacity and Deflection of Fiber-Reinforced Lightweight Aggregate Concrete Beams Reinforced with GFRP Bars [O] . Xi Liu, Yijia Sun, Tao Wu 2019

机译：GFRP筋加固的轻质骨料混凝土梁的抗弯能力和挠度
7. Axial load-axial deformation behaviour of circular concrete columns reinforced with GFRP bars and helices [O] . Karim, Hogr, Sheikh, M Neaz, Hadi, Muhammad N. S 2016

机译：GFRP筋和螺旋筋加固圆形混凝土圆柱的轴向荷载-轴向变形行为。
8. Feasibility Study on Glass Fiber Reinforced Polymer (GFRP) Tubes Filled with Concrete for Pile/Column for Bridges Final Report. [R] . Iyer, S. L. 2001

机译：玻璃纤维增强聚合物（GFRp）填充混凝土桩/柱的可行性研究。

Axial Capacity of Circular Concrete Columns Reinforced with GFRP Bars and Spirals using FEA

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