火灾对多层碳纤维布混凝土柱约束承载力的影响

E. M. Takla, Dr. Ihssan Tarsha
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引用次数: 0

摘要

FRP增强聚合物由于具有FRP复合材料的高抗拉强度、高强重比和高耐腐蚀性等特点,被广泛应用于土木工程中,用于加强结构和混凝土柱的约束,从而增加其延性和承载能力。此外,钢筋混凝土结构暴露在火灾中是最危险的挑战之一,除了造成生命损失外,还会导致结构的巨大破坏和破坏。随着计算机仿真理论的发展,研究构件和结构在不同荷载(静、动、热等)影响下的性能,可以研究混凝土柱在轴向、竖向和非轴向结构荷载影响下的性能,并将结果与以往的研究结果进行比较,从而节省了时间、精力和成本,代替了实验室试验。纤维增强聚合物(FRP)加固混凝土柱已经得到了广泛的研究,但大多数已发表的研究都集中在圆形柱上。现场使用的混凝土柱大多为方形或矩形截面,也能承受偏心荷载。本研究的目的是研究碳纤维布包裹方形钢筋混凝土(RC)柱在火灾下的性能,因此本文采用ANSYS Workbench程序,采用有限元法进行分析研究,确定碳纤维布层数对混凝土柱承载能力的影响,并了解外标准火灾对碳纤维布包裹方形钢筋混凝土柱的影响。尽量将数值结果与实验结果进行比较,并与实验研究进行比较,揭示了解析模型的准确性。结果表明,随着CFRP层数的增加,混凝土柱的承载能力有所提高,但超过4层的CFRP层数增加没有任何好处,因为聚合物材料对火很敏感,需要保温。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Fire on Carrying Capacity of Concrete Columns Confinement with Multi-Layers of CFRP
FRP reinforced polymers are widely accepted for use in civil engineering applications to strengthen constructions and application of confinement on the concrete columns, thereby increasing their ductility and increasing their carrying capacity as these materials are characterized by high tensile strength, high strength-to-weight ratio and high corrosion resistance of FRP composites, etc. In addition, the exposure of reinforced concrete structures to fire is one of the most dangers challenges that lead to great destruction and failure the structural in addition to loss of life. With the development of computer simulation theories to study the behavior of elements and structures under the influence of different loads (static, dynamic, thermal, etc.), it is possible to study the behavior of concrete columns under the influence of axial vertical and non-axial structural loads, and compare the results with previous research, thus saving time, effort and cost instead Of laboratory testing. Strengthening concrete columns with fiber-reinforced polymers (FRP) has been studied extensively, but the majority of published studies have focused on circular columns. Most concrete columns in the field have square or rectangular cross sections and resist eccentric loading as well. The objective of this study is to investigate the performance of square reinforced concrete (RC) columns, wrapped with carbon FRP subjected to fire so, in this paper, an analytical study was conducted using the ANSYS Workbench program, which follows the finite element method, to determine the effect of layers number of CFRP on carrying capacity of concrete columns and to know the effect of external standard fire on confined concrete columns with CFRP. The numerical results were compared with experimental results as far as possible, and revealed the accuracy of the analytical models, when compared to the experimental studies. The results shown that with increase the layer number of CFRP, the carrying capacity of concrete columns will increase, no benefit with increase the number of CFRP more than 4 layers where polymers materials are sensitive to fire so that it needs to insulation.
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