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    FRP筋与全珊瑚骨料海水混凝土粘结性能数值模拟

    Numerical Simulation of Bonding Performance Between FRP Bars and Full Coral Aggregate Seawater Concrete

    • 摘要: 良好的界面粘结性能是保证FRP筋与全珊瑚骨料海水混凝土结构能够共同工作并充分发挥各自优良性能的重要因素之一,因此通过拉拔试验研究了各类影响条件下二者之间的界面粘结性能.在上述试验研究的基础上,通过Abaqus有限元软件采用简化双线性模型建立了FRP筋与珊瑚骨料海水混凝土的粘结滑移模型,研究了FRP筋直径、粘结长度、珊瑚骨料海水混凝土强度和FRP筋种类对粘结性能的影响.通过比较数值模拟得到的理论值与试验得到的试验值发现,二者的一致性较高,因此采用简化双线性模型来分析FRP筋全珊瑚骨料海水混凝土结构的界面粘结性能具有一定的适用性.在研究各因素的影响后发现,增大界面粘结长度、筋材直径和珊瑚骨料海水混凝土强度均能提高结构的承载力,但较大的筋材直径易导致试件发生脆性破坏,并且高强度混凝土对于承载力的增强效果并不明显.

       

      Abstract: Good interfacial bonding performance is one of the important factors to ensure that FRP reinforced coral aggregate seawater concrete structure can work together and give full play to their excellent performance.Therefore, the interfacial bonding properties between the two under various influence conditions were studied by pull-out test.Based on the experimental study, a simplified bilinear model was used to establish the bond-slip model of FRP bars and coral aggregate seawater concrete by Abaqus finite element software.The effects of the diameter of FRP bar, bond length, coral aggregate seawater concrete strength and FRP bar type on bonding performance were studied.By comparing the theoretical value obtained by numerical simulation with the experimental value, it is found that the two are in good agreement.Therefore, the simplified bilinear model is applicable to analyze the interfacial bonding performance of FRP reinforced all coral aggregate seawater concrete structure.After studying the influence of various factors, it is found that increasing the interfacial bond length, the diameter of reinforcement and the strength of coral aggregate seawater concrete can improve the bond strength of the structure, but the large diameter of reinforcement is easy to cause the splitting failure of the specimen, and the enhancement effect of high strength concrete on the bond strength is not obvious.

       

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