FRP片材加固界面补丁式剥离损伤的光纤检测技术
Optical fiber detection technology for patch peeling damage in FRP reinforcement interface
摘 要
FRP(纤维增强复合材料)片材加固界面出现剥离损伤是影响FRP加固效果甚至引起结构脆性破坏的重要原因,实际工程中,剥离大都以补丁形式存在于FRP片材与被加固结构间,肉眼无法观察。将Mach-Zehnder光纤干涉仪的传感臂黏贴在FRP加固片材表面,用软胶榔头沿设定的位置在FRP件表面逐点加载。由光纤干涉仪测量每次加载时光纤的积分应变量,得出加载点与光纤积分应变量的关系曲线,从曲线的曲率或者正负值突变来判别补丁式剥离损伤的位置和大小。试验结果表明,该方法对于FRP加固结构补丁式剥离层具有较好的可测性。
结构加固
补丁式剥离损伤
光纤干涉仪
无损检测
FRP
bonded repair
debonding patch
fiber-optic interferometer
nondestructive testing
Abstract
The interfacial debonding in FRP bonded repair will affect the bonding strength and lead to failure of the repair without warning. Unfortunately the interfacial damage is normally invisible and often in the form of a patch rather than a through-width crack. In this article, a debonding patch detection technique based on fiber optic interferometry is proposed. A quasi-impulse loading is applied with a rubber-head hammer and the total elongation of a surface-mounted optical fiber along the length of the repair material is measured as a function of load position. When a debonding patch is present, the induced sudden slope or sign change on the plot of fiber integral strain vs. load position will reveal the extent and location of the debonded area. The results of the study indicate that the proposed technique is applicable for debonding patch detection in repaired members under various support conditions.
中图分类号 TG115.28 TB330.1 DOI 10.11973/wsjc201912001
所属栏目 科研成果与学术交流
基金项目 国家自然科学基金面上项目(51778191);深圳市科技计划项目(JCYJ20170307145853300);广东省滨海土木工程耐久性重点实验室开放基金资助(GDDCE 17-4)
收稿日期 2018/7/8
修改稿日期
网络出版日期
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备注许颖(1977-),女,博士,副教授,博士生导师,主要研究方向为结构健康监测和光纤传感器及再生建筑材料,复合材料在土木工程中的应用
引用该论文: XU Ying,LI Weiwen,WANG Dexiang,ZHANG Weikai. Optical fiber detection technology for patch peeling damage in FRP reinforcement interface[J]. Nondestructive Testing, 2019, 41(12): 1~6
许颖,李伟文,王德祥,张威凯. FRP片材加固界面补丁式剥离损伤的光纤检测技术[J]. 无损检测, 2019, 41(12): 1~6
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参考文献
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【13】许颖,梁坚凝,江毅.用光纤干涉仪检测Ⅰ形复合材料梁腹板翼缘连接处的分层[J].复合材料学报,2007,24(2):144-150.
【14】XU Ying, LI Yaqi, JIANG Yi, et al. Application of 3×3 coupler based Mach-Zehnder interferometer in delamination patch detection in composite[J]. NDT & E International, 2011, 44:469-476.
【15】江毅,许颖.埋入光纤Mach-Zehnder干涉仪检测复合材料梁的分层[J].复合材料学报,2004,21(1):129-133.
【2】冯鹏,叶列平.FRP结构和FRP组合结构在结构工程中的运用与发展[C]//第二届全国土木工程用纤维增强复合材料运用技术学术交流大会论文集.北京:清华大学出版社,2002:51-61.
【3】TENG J G, CHEN J F, SMITH S T, et al. FRP strengthened RC structures[M]. England:John Wiley & Sons, Ltd., 2002:101-132.
【4】OEHLERS D J, SERACINO R. Design of FRP and steel plated RC structures retrofitting beams and slabs for strength, stiffness and ductility[M].Oxford:Elsevier, 2004:87-98.
【5】YAO J. Debonding failures in RC beams and slabs strengthened with FRP plates[D]. Hong Kong:The Hong Kong Polytechnic University, 2004.
【6】OEHLERS D J,LIU I S T,SERACINO R,et al. Prestress model for shear deformation debonding of FRP-and steel-plated RC beams[J].Magazine of Concrete Research,2004,56(8):475-486.
【7】OEHLERS D J, LIU I S T, SERACINO R. Shear deformation debonding of adhesively bonded plates[J]. Proceedings of the Institution of Civil Engineers:Structures and Buildings, 2005, 158(1):77-84.
【8】KRAUTKRAMER J, KRAUTKRAMER H. Ultrasonic testing of materials[M]. New York:Springer Verlag, 1990:534-549.
【9】JAMA H A, HUSSEIN E M A. Detection of debonding in composite-aluminum joints using gramma-ray Compton scattering[J]. NDT&E International, 1998, 31(2):99-103.
【10】邓江东,黄培彦,宗周红.FRP加固RC梁界面疲劳损伤红外检测分析[J].实验力学,2010, 25(4):1-2.
【11】HOFER B. Fiber optic damage detection in composite structures[J]. Composites, 1987, 18(4):309-316.
【12】XU Y, LEUNG CHRISTOPHER K Y, YANG Z L, et al. A new fiber optic based method for delamination detection in composites[J]. Structural Health Monitoring, 2003, 2(3):205-223.
【13】许颖,梁坚凝,江毅.用光纤干涉仪检测Ⅰ形复合材料梁腹板翼缘连接处的分层[J].复合材料学报,2007,24(2):144-150.
【14】XU Ying, LI Yaqi, JIANG Yi, et al. Application of 3×3 coupler based Mach-Zehnder interferometer in delamination patch detection in composite[J]. NDT & E International, 2011, 44:469-476.
【15】江毅,许颖.埋入光纤Mach-Zehnder干涉仪检测复合材料梁的分层[J].复合材料学报,2004,21(1):129-133.
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