基于压电阻抗法的结构损伤检测技术进展
Development on Detecting Technique of Structure Damage Based on EMI
摘 要
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。
压电阻抗
脱粘
Damage detecting
EMI
Debonding
Abstract
In order to resolve the problem of the rapid on-line detection of structural damage, studying the research development of nondestructive testing technology based on the EMI is necessary. This paper systematically summarizes the research progress of EMI method in recent years at home and abroad, comprehensively sums up the achievements achieved by units and individuals who apply the EMI, and introduces the experience and maturity of damage detection based on EMI in various damage cases, which will have guiding significance on the structure testing based on EMI hereafter.
中图分类号 TG115.28 DOI 10.11973/wsjc201601019
所属栏目 综述
基金项目 国家自然科学基金资助项目(51275517,51105364)
收稿日期 2015/5/20
修改稿日期
网络出版日期
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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
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参考文献
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【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.
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【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.
【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.
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