为了实现结构损伤的快速在线检测, 研究基于压电阻抗(EMI)法的无损检测技术十分必要。总结了国内外在EMI方面的研究进展, 全面概括了应用EMI的单位和个人在此方面取得的成果, 并介绍了基于EMI检测损伤的经验及成熟度, 对后续开展基于EMI的结构检测具有指导意义。

所属栏目

综述国家自然科学基金资助项目(51275517,51105364)

收稿日期

2015/5/20

作者单位

张玉祥:第二炮兵工程大学, 西安 710025
张鑫:第二炮兵工程大学, 西安 710025
陈家照:第二炮兵工程大学, 西安 710025
李知佳:第二炮兵工程大学, 西安 710025

备注

张玉祥(1963- ), 男, 博士生导师, 主要从事动力系统检测与故障诊断、系统综合性能分析与评估方面的研究工作。

引用该论文:

ZHANG Yu-xiang,ZHANG Xin,CHEN Jia-zhao,LI Zhi-jia.Development on Detecting Technique of Structure Damage Based on EMI[J].Nondestructive Testing,2016,38(1):69～74
张玉祥,张鑫,陈家照,李知佳.基于压电阻抗法的结构损伤检测技术进展[J].无损检测,2016,38(1):69～74

参考文献

【1】

李宏男.结构健康监测［M］.大连: 大连理工大学出版社, 2005.

【2】

陈勇.基于压电阻抗的结构健康监测技术的研究［D］.杭州: 浙江大学, 2010.

【3】

GYUHAE P, HARLEY H C, DANIEL J I. Feasibility of using impedance-based damage assess-ment for pipeline structures［J］. Earthquake Eng Struct Dyn, 2001,30:1463-1474.

【4】

LIANG C, SUN F P, ORGERS C A. Coupled electromechanical analysis of adaptive material systems-determination of the actuator power consumption and system energy transfer［J］. Journal of Intelligent Material Systems and Structures, 1994, 5(1):12-20.

【5】

ZHOU S W, LIANG C, ROGERS C A. An impedance-based system modeling approach for induced strain actuator-driven structures［J］. Journal of Vibration and Acoustics, 1996,118(3):323-331.

【6】

BHALLA S, SOH C K. Structural health monitoring by piezo-impedance transducers. I. Modeling［J］.Journal of Aerospace Engineering,2004,17(4):154-165.

【7】

ANNAMDAS V G M, SOH C K. Three-dimensional electromechanical impedance model for multiple piezoceramic transducers-structure interaction［J］.Journal of Aerospace Engineering,2008,21(1):35-44.

【8】

王丹生, 朱宏平, 金柯, 等.压电智能梁的阻抗分析与损伤识别［J］.固体力学, 2008, 29(4):402-407.

【9】

YAN W, LIM C W, CHEN W Q, et al. Modeling of EMI response of damaged Mindlin-Herrmann rod［J］. International Journal of Mechanical Sciences, 2007,49(12):1355-1365.

【10】

严蔚, 陈伟球, 林志华, 等.基于高频电阻抗信号的结构损伤监测［J］.浙江大学学报: 工学版, 2007, 41(1):6-11.

【11】

严蔚, 袁丽莉.基于回传射线矩阵法的含裂缝智能梁的动态特性［J］.振动与冲击, 2010, 29(6):109-114.

【12】

ZHANG Yu-xiang, XU Fu-hou, CHEN Jia-zhao, et al. Electromechanical impedance response of a cracked timoshenko beam［J］. Sensors, 2011,7:7285-7301.

【13】

XU J F, YANG Y, SOH C K. Electromechanical impedance-based structural health monitoring with evolutionary programming［J］. Journal of Aerospace Engineering, 2004, 17(4):182-193.

【14】

YANG Y, HU Y. Electromechanical impedance modeling of PZT transducers for health monitoring of cylindrical shell structures［J］. Smart Materials and Structures, 2008,17(1):11-12.

【15】

ZHANG Yu-xiang, XU Fu-hou. Electro-mechanical impedance modeling for health monitoring of a damaged thin plate［C］. IEEE The Third International Conference on Measuring Technology and Mechatronics Automation, Shanghai, 2011,1:22-28.

【16】

YANG Y, LIM Y Y, SOH C K. Practical issues related to the application of the electromechanical impedance technique in the structural health monitoring of civil structures: Ⅱ［J］. Numerical Verification Smart Mater Struct, 2008, 17:35-37.

【17】

蔡金标, 陈勇, 严蔚.基于三维有限元分析的压电阻抗模型及其应用［J］.浙江大学学报: 工学版,2010, 44(12):2342-2347.

【18】

ZHANG Yu-xiang, XU Fu-hou. Application of electro-mechanical impedance sensing technique for online aging monitoring of rubber［J］. Intelligent Automation and Soft Computing, 2012,18(8):1101-1109.

【19】

ZHANG Yu-xiang, XU Fu-hou, ZHOU Yun. Electromechanical impedance response of a thin plate with holes［J］. Smart Materials and Structures,2011,2:22-28.

【20】

ZWIJNENBURG A, APAOG K, REITSMA H J. On the possibility of detecting case/liner and liner/propellant debond in a rocket motor by means of the ultrasonic multiple reflection pulse echo technique［J］. Propellant, Explosives, Phyrotechnics, 1983,8:40-45.

【21】

吴庆刚.多界面脱粘超声检测技术研究［D］.太原: 华北工学院, 2002.

【22】

SAWANT A M, HERBERT Z, DIANE M, et al. An adaptive median filter algorithm to remove impulse noise in X-ray and CT images and speckle in ultrasound images［J］ . SPIE, 1999,36:1263-1274.

【23】

LI M X. Principles of an acoustic impendence method for detection and location of non-bonds in adhesive-bonded muitilayered joints［J］. NBT International, 1982,15:129-176.

【24】

GNYOTT C H. The ultrasonic vibration characteristics of adhesive joints［J］. J. A. S. A., 1988,83(2):632-640.

【25】

李媛, 王召巴.不等厚金属非金属复合构件的相控阵超声脱粘检测技术研究［D］.太原: 中北大学, 2008.

【26】

王召巴, 金永.复合材料多界面脱粘超声检测技术［J］.太原师范学院学报, 2007, 2(1):45-47.

【27】

ZHANG Yu-xiang, XU Fu-hou. Vibration-based crack identification of generally supported beam structures［J］. Advances in Structures, 2011,163:2723-2726.

【28】

NAIDU A, SOH C K. Identifying damage location with admittance signatures of smart piezo-transducers［J］. Journal of Intelligent Material Systems and Structures, 2004,15:627-642.

【29】

TSENG K K, WANG L S. Impedance-based method for nondestructive damage identification［J］. Journal of Engineering Mechanics, 2005,13(1):58-64.

【30】

LOPES V J, PARK G, CUDNEY H H, et al. Impedance based structural health monitoring with artificial neural network［J］. Journal of Intelligent Material Systems and Structures,2000,11(3):206-214.

【31】

危玉蓉, 郭少华.基于神经网络方法的EMI结构损伤识别［J］.四川建筑, 2010, 30(3):76-79.

【32】

沈星, 吕娟, 章建文, 等.基于压电阻抗技术和BP网络的结构健康监测［J］.南京航空航天大学学报, 2010, 42(4):418-422.

【33】

SEUNGHEE P, KIM J W, CHANGGIL L, et al. Impedance-based wireless debonding condition monitoring of CFRP laminated concrete structures［J］. NDT&E International, 2011,44:232-238.

【34】

RUCKLI J L, CAMELIO J A. Damage detection in assembly fixtures using non-destructive electromechanical impedance sensors and multivariate statistics［J］. Int J Adv Manuf Tech, 2009,42(9/10):1005-1015.

【35】

MIN Ji-young, PARK S,YUN C B. Impedance-based structural health monitoring using neural networks for autonomous frequency range selection［J］. Smart Mater Struct, 2010,19:10-11.

【36】

HAI Y Q, LI J C, LI L. Quantitatively, characterizing damages on steel beams by using PZT impedance method［C］.［S.l］:［s.n.］, 2010.

【37】

TAWIE R, LEE H K. Monitoring the strength development in concrete by EMI sensing technique construction and building materials［J］.Construction & Building Materials, 2010,24(9):1746-1753.

【38】

YANG Yao-wen, BAHADOR S D. Sub-frequency interval approach in electromechanical impedance technique for concrete structure health monitoring［J］. Sensors, 2010, 10:11644-11661.

【39】

KIM M K, KIM E J, AN Y K, et al. Reference free impedance based crack detection in plates［J］. Journal of Sound and Vibration, 2011, 330:5949-5962.

【40】

AN Yun-kyu, HOON S. Integrated impedance and guided wave based damage detection［J］. Mechanical Systems and Signal Processing, 2012,28:50-62.

【41】

CHAUDHRY Z, JOSEPH T, SUN F, et al. Local-area health monitoring of aircraft via piezoelectric actuator/sensor patches［C］. ［S.l］:［s.n.］, 1995.

【42】

SEELEY C E, CHATTOPADHYAY A. Modeling of adaptive composites including debonding［J］. International Journal of Solids and Structures, 1999,36(12):1823-1843.

【43】

TONG L, SUN D C, ATLURI S N. Sensing and actuating behaviors of piezoelectric layers with debonding in smart beams［J］. Smart Materials and Structures, 2001,10(4):713-723.

【44】

SUN D C, TONG L, ATLURI S N. Effects of piezoelectric sensor/actuator debonding on vibration control of smart beams［J］. International Journal of Solids and Structures, 2001,38(50/51):9033-9051.

【45】

ZHENG Shi-jie. Finite element analysis of smart structures with piezoelectric sensors/actuators includingdebonding［J］. Chinese Journal of Aeronautics, 2004,17(4):246-250.

【46】

周勇,王鑫伟,孙亚飞,等.压电复合材料层合板弯曲变形及脱粘损伤的有限元分析［J］.吉林大学学报, 2004,34(2):180-184.

【47】

YAN Ya-bin, SHANG Fu-lin. Cohesive zone modeling of interfacial delamination in PZT thin films［J］. International Journal of Solids and Structures.2009,46(13):2739-2749.

【48】

白瑞祥, 王亮, 陈浩然.界面脱粘压电复合材料层合梁能量释放率研究［C］.［S.l］: ［s.n］,2010.

【49】

艾春安, 刘瑜, 赵文才, 等.固体火箭发动机结构粘接质量的声-超声检测［J］.无损检测, 2009, 31(12): 974-976.