参考文献/References:
[1] SONG G, QIAO P Z, BINIENDA W K, et al. Active vibration damping of composite beam using smart sensors and actuators [J] .Journal ofaerospaceengineering, 2002, 15 (3) : 97-103.SONG G, GU H. Activevibrationsuppressionofasmartflexiblebeam usingasliding modebasedcontroller [J] .Journalof Vibration and Control, 2007, 13 (8) : 1095-1107.
[3] 张兢, 徐霞, 王玉菡, 等. 基于压电陶瓷动态信息的结构损伤检测技术 [J] . 重 庆 工 学 院 学 报 ( 自 然 科 学 版) , 2007, 21 (5 ) :11-14, 33.ZHANGJ, XU X, WANG Y H, etal. Testingtechnologyforstructure damages based on piezoelectricceramics dynamicinformation[J] .Journal of Chongqing University of Technology (Natural Science) , 2007, 21 (5) : 11-14, 33.
[4] 许斌, 李冰, 宋刚兵, 等. 基于压电陶瓷的钢管混凝土柱剥离损伤识别研究 [J] . 土木工程学报, 2012, 45 (7) : 86-96.XU B, LI B, SONG G B, etal. Detectionofthedebondingdefectofconcrete-filledsteeltubes withpiezoceramics [J] . China Civil EngineeringJournal, 2012, 45 (7) : 86-96.
[5] WANG C S, CHANG F K. Built-indiagnosticsforimpactdamageidentificationofcompositestructures [J] . Structural Health Monitoring, 1999: 612-621.
[6] KESSLER SS, SPEARINGS M, SOUTIS C. Damagedetectionincomposite materialsusing Lamb wave methods [J] . Smart Materialsand Structures, 2002, 11 (2) : 269.
[7] SONG G, GU H, MO Y L, etal. Concretestructuralhealth monitoringusingembeddedpiezoceramictransducers. Smart Materialsand Structures, 2007, 16 (4) : 959-968.
[8] ZHANGJ, HUANG Y, YU Z. A feasibility study on timber damage detection using piezoceramic-transducer-enabled active sensing[J] . Sensors, 2018, 18 (5) : 1563.
[9] 宋焕宇, 王广辉. 压电阻抗法检测管道腐蚀损伤的实验研究 [J] . 南阳理工学院学报, 2012, 4 (6) : 82-85, 94.SONG H Y, WANG G H. Theexperimentalresearchofpiezoelectricimpedance methodtodetectthepipelinescorrosiondamage [J] .Journal of NanyangInstitute of Technology, 2012, 4 (6) : 82-85, 94.
[10] 彭芬, 许斌, 陈洪兵, 等. 基于压电超声导波的管道缺陷检测数值模拟 [J] . 压电与声光, 2017, 39 (3) : 462-466.PENG F, XU B, CHEN H B, et al. Numerical simulation of pipeline defect detection based on piezoelectric ultrasonic guided wave[J] . Piezoelectrics & Acoustooptics, 2017, 39 (3) : 462-466.
[11] 王志强. 基于时间反演的管道结构连接健康监测研究 [D] . 沈阳: 沈阳建筑大学, 2017.WANG Z Q. Research on pipelineconnectionstructure damage monitoring by usingtimereversal method [D] . Shenyang: Shenyang Jianzhu University, 2017.
[12] 许漫. 基于压电导波的钢制管道结构损伤识别系统的研究 [D] . 杭州: 浙江工业大学, 2020.XU M. Research on damageidentificationsystem ofsteel pipelinestructure basedon piezoelectricguided wave [D] . Hangzhou: Zhejiang University of Technology, 2020.
[13] 杜国锋, 张志忠, 张东山. 基于压电阻抗技术的管道多裂纹损伤识别研究 [J] . 武汉理工大学学报, 2013, 35 (10) : 101-105.DU G F, ZHANG Z Z, ZHANG D S. Multiple crack detection of pipeline usingimpedance-based structural health monitoring techniques [J] .Journal of Wuhan University of Technology, 2013, 35 (10) : 101-105.
[14] 杜国锋, 吴方红, 周博, 等. 基于压电阻抗方法的钢管裂纹损伤识别试验 [J] . 武汉大学学报 ( 工学版) , 2014, 47 (2) : 226-229,265.DU G F, WU F H, ZHOU B, etal. Experimentoncrackdamageidentificationofsteelpipelinebasedonpiezoelectricimpedance method [J] . EngineeringJournal of Wuhan University, 2014, 47 (2) : 226-229, 265.
[15] 张东山, 张志忠, 刘瑜, 等. 基于压电阻抗方法的油气管道裂纹损伤定量研究 [J] . 工程力学, 2016, 33 (1) : 232-237.ZHANG D S, ZHNAG Z Z, LIU Y, etal. Piezoelectricimpedance-basedquantitativestudyonoilandgaspipelinecrackdamage [J] .Engineering Mechanics, 2016, 33 (1) : 232-237.
[16] 李鲲, 肖逸飞, 徐阳, 等. 基于压电陶瓷传感器的管道裂纹敲击定位法 [J] . 石油机械, 2020, 48 (6) : 118-125.LI K, XIAO Y F, XU Y, etal. Pipelinecracklocation using knockinglocating method based on piezoceramictransducer [J] . China Petroleum Machinery, 2020, 48 (6) : 118-125.
[17] 中国石油天然气集团公司. 油气输送管道线路工程抗震技术规范 (50470-2008) [M] . 北京: 中国计划出版社, 2008.China National Petroleum Corporation. Seismictechnical codefor oil and gastransmission pipeline engineering (50470-2008) [M] .Beijing: China Planning Press, 2008.
[18] 田江平, 董飞飞, 徐晋东, 等. 压电陶瓷传感器的埋地长输管道动力响应监测 [J] . 地震工程与工程振动, 2019, 39 (2) : 159-168.TIAN J P, DONG FF, XUJ D, etal. Dynamicresponse monitoringofburiedlong-distancepipelinebasedonpiezoelectricceramicsensor [J] . Earthquake Engineeringand Engineering Dynamics, 2019, 39 (2) : 159-168.