Interface Crack Propagation in Fiber Reinforced Polymer-Strengthened Concrete Structures Using Nonlinear Fracture Mechanics

玻璃钢 Pub Date : 1999-08-01 DOI:10.14359/5683
J. Yin, Z. Wu
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引用次数: 15

Abstract

In this paper, the crack propagation along FRP -concrete interface of FRP-strengthened concrete structures is analyzed by using nonlinear fracture mechanics, in which the concept of mode II fracture is applied to describe the interfacial slip relationship. Two types of the shear stress-slip relationship were proposed, and have been implemented with the mixed finite element methods to perform numerical simulations. A simulation for a simple shear test is carried out to verify the interface crack model. It is found that the interfacial fracture energy is the most important parameter for the bond behavior and the ultimate load can be expressed in terms of the fracture energy. Choosing different bond strength and shear stress-slip relation ship may influence the effective bond length between FRP sheets and concrete. In addition, an example of a FRP-strengthened concrete beam is also analyzed, in which the composite behavior is significantly dependent on the bond strength of strengthened beam, and the debonding propagation and the failure load due to debonding may also be expressed with fracture energy. The fact that cracks are localized or distributed, for plain concrete beams without reinforcing steel bars, is regarded to be affected by bond strength, interfacial fracture energy, concrete tensile strength and mode I fracture energy of concrete.
基于非线性断裂力学的纤维增强聚合物增强混凝土结构界面裂纹扩展
本文采用非线性断裂力学方法,采用II型断裂的概念来描述FRP-混凝土界面滑移关系,对FRP-混凝土结构沿FRP-混凝土界面的裂纹扩展进行了分析。提出了两种类型的剪应力-滑移关系,并采用混合有限元方法进行了数值模拟。通过简单剪切试验模拟验证了界面裂纹模型的正确性。发现界面断裂能是影响粘结行为的最重要参数,极限载荷可以用断裂能来表示。选择不同的粘结强度和剪应力-滑移关系会影响FRP布与混凝土的有效粘结长度。此外,本文还以frp加固混凝土梁为例进行了分析,结果表明frp加固梁的复合性能与加固梁的粘结强度有显著的关系,其脱粘扩展和因脱粘引起的破坏荷载也可以用断裂能来表示。对于不加钢筋的素面混凝土梁,裂缝是局部的还是分布的,被认为是受粘结强度、界面断裂能、混凝土抗拉强度和混凝土I型断裂能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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