Effects of Freeze-Thaw Cycling and Sustained Load on FRP-Concrete Interface

机译：冻融循环和持续载荷对FRP - 混凝土界面的影响

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This paper presents an experimental investigation into the bond behavior between basalt FRP (BFRP) sheet and concrete substrate under coupled effects of freeze-thaw cycling and sustained load. Specially designed double-lap shear specimens were exposed to up to 200 freeze-thaw cycles with sustained load. After exposure, the specimens were tested to failure. Digital Image Correlation (DIC) test method was applied to capture the full-field strain in the study. Nonlinear constitutive law of FRP-concrete interface was determined based on full-field deformation and strain analysis. Test results show that freeze-thaw cycling leads to significant decreases in load carrying capacity, ultimate slip, shear strength and increases in effective stress transfer length of FRP-concrete interface. Additional damage is generated when the load condition is taken into account during freeze-thaw cycling test. Moreover, apparent changes in failure mode were found with the increasing number of freeze-thaw cycles.

机译：本文介绍了玄武岩FRP（BFRP）片材和混凝土基板之间的粘合行为的实验研究，冻融循环和持续载荷的耦合效应。特殊设计的双圈剪切样品暴露于高达200个冻融周期，持续载荷。暴露后，测试样品以发生故障。数字图像相关（DIC）试验方法应用于捕获研究中的全场应变。基于全场变形和应变分析确定了FRP - 混凝土界面的非线性本构规律。试验结果表明，冻融循环导致负载承载能力，终极滑动，剪切强度的显着降低，并增加了FRP - 混凝土界面的有效应力传递长度的增加。在冻融循环试验中考虑负载条件时产生额外的损坏。此外，在越来越多的冻融循环中发现了失效模式的明显变化。

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《International symposium on fiber-reinforced polymer reinforcement for concrete structures》|2011年||共20页
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Jiawei Shi; Hong Zhu; Zhishen Wu;
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中图分类混凝土结构、钢筋混凝土结构;
关键词
concrete structure; durability; freeze thaw; FRP; bond interface; sustained load;

机译：混凝土结构;耐久性;冻融;FRP;债券界面;持续加载;

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2. Bond Behavior between Basalt Fiber-Reinforced Polymer Sheet and Concrete Substrate under the Coupled Effects of Freeze-Thaw Cycling and Sustained Load [J] . Jiawei Shi, Hong Zhu, Zhishen Wu, Journal of Composites for Construction . 2013,第4期

机译：冻融循环与持续荷载耦合作用下玄武岩纤维增强聚合物片材与混凝土基底的粘结行为
3. Effect of Freeze-Thaw Cycles on FRP-Concrete Bond Strength in EBR and EBROG Systems [J] . Mostofinejad Davood, Mohammadi Mahdie Journal of Composites for Construction . 2020,第3期

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4. Effects of Freeze-Thaw Cycling and Sustained Load on FRP-Concrete Interface [C] . Jiawei Shi, Hong Zhu, Zhishen Wu, International symposium on fiber-reinforced polymer reinforcement for concrete structures . 2011

机译：冻融循环和持续荷载对FRP-混凝土界面的影响
5. Combined effects of freeze-thaw and sustained loads on reinforced concrete beams strengthened with FRPs [D] . Oldershaw, Brant 2008

机译：冻融和持续荷载对FRP加固钢筋混凝土梁的共同影响
6. Research on Fractal Characteristics and Energy Dissipation of Concrete Suffered Freeze-Thaw Cycle Action and Impact Loading [O] . Yan Li, Yue Zhai, Xuyang Liu, 2019

机译：混凝土受冻融循环作用及冲击荷载的分形特征与耗能研究
7. Cohesive zone model of FRP-concrete interface debonding under mixed-mode loading [O] . Wang Jialai 2007

机译：混合荷载下FRP-混凝土界面剥离的粘结带模型
8. Repetitive Loading Tests on Membrane-Enveloped Road Sections during Freeze-Thaw Cycles. [R] . Smith, N., Eaton, R. A., Stubstad, J. M. 1978

机译：冻融循环过程中膜包覆路段的重复加载试验。

Effects of Freeze-Thaw Cycling and Sustained Load on FRP-Concrete Interface

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