基于光纤光栅传感技术的复合材料损伤检测

摘要/Abstract

摘要： 随着科学技术的不断进步和发展，越来越多的新型复合材料构件在工业制造过程中被采用，然而复合材料在服役过程中一旦损坏将造成巨大的损失，因此对复合材料的结构健康检测显得十分重要。将布拉格光纤光栅（FBG）传感技术应用于玻璃纤维复合材料薄板检测，采用主动冲击的方式在玻璃纤维复合材料板上激励声波，采集损伤前后的冲击响应信号，研究基于小波包能量谱的冲击响应的损伤识别。通过小波包分解，得到损伤前后的小波能量谱变化比直方图，比较图中各阶小波包能量比，能够实现复合材料的损伤识别。

关键词: 光电子学, 光纤光栅, 冲击响应, 复合材料, 小波包能量谱

Abstract: With the continuous progress and development of science and technology, more and more new composite components were used in the industrial manufacturing process. However, composite materials during service once the damage will lead to huge losses, so it is very important for structural health monitoring of composite materials. Fiber Bragg grating (FBG) sensor technology was used in the detection of glass fiber composite sheet. Incentive on glass fiber composite using active impact way, and collecting impulse response signal before and after the injury. We have studied the impact response of the damage identification which is based on the wavelet packet energy spectrum, by wavelet packet decomposition, obtained the histogram of wavelet energy spectrum changes ratio before and after the injury. Compare each order wavelet packet energy ratio; we realize the damage identification of the glass fiber composite.

Key words: optoelectronics, fiber Bragg grating, impulse response, composites, wavelet packet energy spectrum

中图分类号:

章羽，赵崇谊，陈结祥. 基于光纤光栅传感技术的复合材料损伤检测[J]. J4, 2013, 30(5): 608-613.

ZHANG Yu，ZHAO Chong-yi，CHEN Jie-xiang. Damage detection of composite materials based on fiber Bragg grating sensor technology[J]. J4, 2013, 30(5): 608-613.

参考文献

[1] Chopra I..Status of application of smart structures technology to rotorcraft systems
[J]．Journal of the American Helicopter Society，2000．45(4)：228-252
[2] Kalaycioglu S. , Silva D．．Minimization of vibration of spacecraft appendages during shape Control using smart structures
[J]．Journal of Guidance Control and Dynamics，2000．23(3)：558-561
[3] Fuhr P. L., Huston D. R.. Corrosion detection in reinforced concrete roadways and bridges via embedded fiber optic sensors. Smart Materials and Structures.1998, 7(2): 217-228
[4] Zonta D., Pozzi M., Wu H.. Experimental Evaluation of a Smart Prestressed Element Instrumented with Multiplexed Interferometric Fiber Optic Sensors
[C].Proceedings of the 4th European Workshop on Structural Health Monitoring,Cracow, Poland, 2008: 863-870
[5] Takeda S., Mizutani T., Nishi T., Uota N., Hirano Y.. Monitoring of a CFRP-Stiffened panel manufactured by VaRTM using fiber-optic sensors
[J].Advanced Composite Materials. 2008, 17(2): 125-137
[6] Kosaka T., Kurimoto H., Osaka K.. Strain monitoring of braided composites by using embedded fiber-optic strain sensors
[J]. Advanced Composite Materials. 2004,13(3-4): 157-170
[7] 江毅, 许颖. 表面粘贴光纤干涉仪测量复合材料梁的分层
[J]. 测试技术学报.2003, 17(4): 354-358 Jiang Y., Xu Y., Surface Sticked Fiber Optical Interferometer for the Detection of Delamination in Composites
[J]. Journal of Test And Measurement Technology. 2003, 17(4): 354-358
[8] 江毅, 许颖, Leung C. K. Y.. 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 Jiang Y., Xu Y., Leung C. K. Y. .Embedded Fiber Optical Mach-Zehnder Interferometer for the Detection of Delamination in Composites
[J]. Acta Materiae Compositae Sinica. 2004, 21(1): 129-133
[9] Leung C. K. Y., Yang Z., Xu Y., Tong P., Lee S. K. L.. Delamination detectionin laminate composites with an embedded fiber optical interferometric sensor
[J].Sensors and Actuators A: Physical. 2005, 119(2): 336-344
[10] Webb D.J. et al.Miniature fiber optic ultrasonie Probe
[J].Proe.SPIE，1996. 28(39):78-80
[11] Fisher N.E. et al.In-fiber Bragg gratings for ultrasonie medical applications
[J].Meas.SeiTeehno，1997, 8(10):1050-1054
[12] Hiroshi Tsuda. Ultrasound and damage detection in CFRP using fiber Bragg grating sensors
[J].Composites Science and Technology, 2006, 66(05):676-683
[13] Hiroshi Tsuda,Lee Jung-Ryul, Guan Yisheng, Takatsubo Junji. Investigation of fatigue crack in stainless steel using a mobile fiber Bragg grating ultrasonic sensor
[J].Optical Fiber Technology, 2007, 13(03):209-214
[14] Geng Dan, Yang Dong-Xiao, Shen Guo-Feng, and Zhang Xian-Min. Photonic crystal fibre Brillouin laser based on Bragg grating Fabry-Perot cavity
[J].Chinese Physics B.2008,3:1020–1024
[15] 陈换过. 小波变换和神经网络方法在复合材料结构损伤振动检测中的应用
[D]. 西安:西北工业大学, 2003 Chen Huan-guo. Wavelet Transform and Artifieial Neural Network Technique in Damage Dynamic Detection of Composite Structures
[16] 郝晓剑. 动态测试技术与应用
[M]. 北京:电子工业出版社, 2013:1-16 Hao Xiao-jian. Technology and Application of Dynamic Testing
[M] . Beijing: Electronic Industry Press, 2013:1-16