The applications of Fiber Reinforced Polymer (FRP) sheets as tension reinforcement have been widely used in repair and upgrading of concrete structures. The significance of the bond is due to its critical role on transferring the stress from the existing concrete structures to externally bonded FRP sheets and keeping integrity and durability of the composite performance of FRP-concrete system. So how to improve the interfacial load transferring performances and ductility and how to improve the strength efficiency of FRP materials should raise more concerning. In this paper, a numerical simulation code named Realistic Failure Process Analysis was used to estimate failure mode of FRP-reinforced concrete beam with different bond between FRP and concrete, which has different mechanics parameters. The numerical test predictions are compared with experimental results, the numerical tests show that properties of the interfacial adhesive layer and concrete are considered to significantly influence the failure modes and crack distribution. The interactions between the interfacial bond strength and tensile strength of concrete are discussed through a parametric study; the effects of these properties on the interfacial debonding types and concrete crack distribution are clearly studied.
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机译:纤维增强聚合物(FRP)片材作为抗张增强材料的应用已广泛用于混凝土结构的修复和升级。粘结的重要性在于其在将应力从现有混凝土结构转移到外粘结FRP板并保持FRP-混凝土系统复合性能的完整性和耐久性方面的关键作用。因此,如何提高界面荷载传递性能和延展性以及如何提高玻璃钢材料的强度效率值得关注。本文采用数值模拟程序Realistic Failure Process Analysis来估算FRP与混凝土之间具有不同粘结力,具有不同力学参数的FRP筋混凝土梁的破坏模式。将数值试验的预测结果与实验结果进行了比较,数值试验表明,界面粘结层和混凝土的性能被认为会显着影响破坏模式和裂缝分布。通过参数研究讨论了界面粘结强度和混凝土抗拉强度之间的相互作用。明确研究了这些性能对界面剥离类型和混凝土裂缝分布的影响。
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