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高应力重复加卸载下GFRP筋与混凝土的粘结性能
引用本文:何政,孙颖. 高应力重复加卸载下GFRP筋与混凝土的粘结性能[J]. 复合材料学报, 2006, 23(6): 149-157
作者姓名:何政  孙颖
作者单位:东北大学,资源与土木工程学院,沈阳,110004;哈尔滨工业大学,土木工程学院,哈尔滨,150090
摘    要:对20 个GFRP 筋标准拔出试件进行了单调静力加载和高应力重复加卸载的粘结性能试验, 考察了粘结强度、加载端滑移量、粘结刚度及滞回耗能的变化规律。研究结果表明, GFRP 筋的粘结性能在等幅(Δτ=017τu ) 应力循环下表现不稳定, 在变应力幅重复加卸载下, 粘结强度衰减较为明显, 得到的包迹线和共同点曲线与单调静力加载τ s 曲线形状基本一致, 同一滑移量下共同点曲线上的粘结应力与包迹线上的粘结应力比值在0150~0. 75 变化。重复加卸载下GFRP 筋肋的损伤程度比单调静力加载下的情况更为严重, 混凝土界面没有发现劈裂裂纹。从滑移量、能量耗散和刚度衰减变化情况来看, 加载历史和损伤累积状态对这些变量的影响最为明显。 

关 键 词:FRP筋  粘结  混凝土  玻璃纤维  强度衰减  刚度衰减
文章编号:1000-3851(2006)06-0149-09
收稿时间:2006-01-04
修稿时间:2006-01-042006-04-17

Bond behavior between GFRP rod and concrete subjected to high stress reversals
HE Zheng,SUN Ying. Bond behavior between GFRP rod and concrete subjected to high stress reversals[J]. Acta Materiae Compositae Sinica, 2006, 23(6): 149-157
Authors:HE Zheng  SUN Ying
Affiliation:1.College of Resources and Civil Engineering| Northeastern University| Shenyang 110004| China ;2.School of Civil Engineering| Harbin Institute of Technology| Harbin 150090| China
Abstract:Twenty standard bond specimens of GFRP rod were tested under monotonic load and cyclic load to studythe changes of bond st rength , the slip at the loaded end , unloading stiffness and hysteretic energy dissipation. Theresult s indicate that the GFRP rod does not exhibit steady bond behavior under constant stress reversals (Δτ=017τu ) , and the bond st rength of the specimens subjected to variable st ress reversals degrades significantly as cyclesincrease. The envelop curves and the common-point curves show basically the same profile as thoseτ s curves fromthe monotonic static test . The ratios of the bond st resses in the common-point curves to those in the envelop curvesat the same slip range f rom 0. 50 to 0. 75. More serious damage can be observed around the ribs of the GFRP rod inthe specimens after stress reversals than those subjected to monotonic static test . No splitting cracks can be seen inthe concrete. From the investigation of the slip at the loaded end , hysteretic energy dissipation and unloading stiffness asreversals increase , the load history and accumulative damage status were found to be the two key influencing factors.
Keywords:fiber reinforced polymer rod   bond  concrete   glass fiber   bond degradation   stiffness degradation
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