Progress in Research of Guided Wave NDT Technique Based on Magnetostrictive Effect
摘 要
概述了国内外基于磁致伸缩效应的导波无损检测技术的研究进展,重点评述了磁致伸缩导波无损检测技术取得的三方面突破,即磁致伸缩传感器技术、导波特性研究和导波信号处理。提出了有待进一步解决的问题。
Abstract
The recent research advances in guided wave NDT technique based on magnetostrictive effect were reviewed. An important introduction about three thesis of progress in guided wave NDT technique based on magnetostrictive effect were given such as magnetostrictive sensor technology, guided wave property and guided wave signal processing. Some directions or issues which should be further researched and is benefit for this technique to be popularized and applied were put out also.
中图分类号 TG115.28
所属栏目 综 述
基金项目 湖北省自然科学基金资助项目(2004ABA028)
收稿日期 2006/9/26
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备注王悦民(1969-),男,博士后,副教授。
引用该论文: WANG Yue-min,XIE Jun-li,LIU Dong,SHEN Li-hua,SUN Feng-rui. Progress in Research of Guided Wave NDT Technique Based on Magnetostrictive Effect[J]. Nondestructive Testing, 2007, 29(5): 280~284
王悦民,谢俊丽,刘 东,沈立华,孙丰瑞. 基于磁致伸缩效应的导波无损检测技术研究进展[J]. 无损检测, 2007, 29(5): 280~284
被引情况:
【1】邹珺,武新军,徐江,康宜华, "基于杜芬混沌振子的磁致伸缩导波信号识别",无损检测 30, 600-602(2008)
【2】张喆斯,马延鋆,宋振华,马宏伟, "磁致伸缩式纵向超声导波传感器的阻抗匹配设计",无损检测 37, 43-47(2015)
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参考文献
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【2】Kwun H, Teller C M. Detection of fractured wires in steel cables using magnetostrictive sensors[J]. Materials Evaluation,1994,52(4):503-507.
【3】Kwun H, Bartels K A. Magnetostrictive sensor technology and its applications[J]. Ultrasonics,1998,36:171-178.
【4】Kwun H, Holt C M. Feasibility of under-lagging corrosion detection in steel pipe using the magnetostrictive sensor technique[J]. NDT&E International,1995,28(4):211-214.
【5】Yichi Lu. Magnetostrictive characterization of notches in steel pipes[J]. SPIE,1999,3588:48-56.
【6】Laguerre L, Aime J C, Brissaud M. Magnetostrictive pulse-echo device for non-destructive evaluation of cylindrical steel materials using longitudinal guided waves[J]. Ultrasonics,2002,39:503-514.
【7】Wang Yuemin, Kang Yihua, Wu Xinjun. Application of magnetostrictive generation of guided wave to non-destructive testing of pipes[C]. Conference Proceedings of the 7th International Conference on Electronic Measurement & Instruments, Beijing 2005:88-91.
【8】王悦民,康宜华,武新军.基于磁致伸缩效应的圆管缺陷检测实验研究[J].振动、测试与诊断,2004,24(3):210-213.
【9】王悦民,康宜华,武新军.磁致伸缩效应及其在无损检测中的应用研究[J].华中科技大学学报,2005,33(1):75-77.
【10】王悦民,康宜华,武新军.磁致伸缩效应在圆管中激发纵向导波的理论和试验研究[J].机械工程学报,2005,41(10):174-179.
【11】刘镇清.超声无损检测中的导波技术[J].无损检测,1999,21(8):367-369.
【12】Silk M G, Bainton K F. The propagation in metal tubing of ultrasonic wave modes equivalent to Lamb waves[J]. Ultrasonics,1979,17(1):11-19.
【13】Lowe MJ S. Mat rix techniques for modeling ultrasonicwaves in multilayered 2media[J]. IEEE U FFC,1995,42:525-542.
【14】James Barshinger, Rose J L. Guided wave resonance tuning for pipe inspection[J]. Journal of Pressure Vessel Technology,2002,124:303-304.
【15】他得安,刘镇清,贺鹏飞.复合管状结构中超声导波的位移分布[J].复合材料学报,2003,20(6):130-136.
【16】杜光升,王耀俊,袁忆丰,等.具有弱界面的柱状复合结构中轴对称声导波[J].物理学报,1998,47(1):27.
【17】Aristegui C, Lowe MJ S, Cawley P. Guided waves in fluid filled pipes surrounded by different fluids[J]. Ultrasonics,2001,39:367-375.
【18】Yang C H, Shue C J. Guided waves propagating in a piezoelectric plate immersed in a conductive fluid[J]. NDT &E International,2001,34:199-206.
【19】他得安,刘镇清,贺鹏飞.充粘性液管材中超声纵向导波的无损检测参数选择[J].声学学报,2004,29(3):104-110.
【20】Rose J L. Recent advances in guided waves[C]. IEEE Ultrasonic Symposium. Berlin:1995:725.
【21】他得安,刘镇清,贺鹏飞.复合管状结构中超声导波的位移分布[J].复合材料学报,2003,20(6):130-136.
【22】Lee Chong Myoung, Rose J L, Cho Younho, et al. Guided wave feasibility in layered devices[J]. Review of Quantitative Nondestructive Evaluation,2004,23:254-261.
【23】他得安,刘镇清,贺鹏飞.以能量密度为参量的管中导波无损检测参数选择[J].应用力学学报,2003,20(2):72-77.
【24】Roth D J, Cosgriff L M, Martin R E, et al. Microstructural and defect characterization in ceramic composites using an ult rasonic guided wave scan system[J]. Review of Quantitative Nondestructive Evaluation,2000,23:906-913.
【25】他得安,易 勇,刘镇清.传播距离对管中导波传播特性的影响[J].无损检测,2003,25(11):553-556.
【26】Tobias Lentenegger, Dual Jurg. Detection of defects in cylindrical structures using a time reverse method and a finite-difference approach[J]. Ultrasonics,2002,40:721-725.
【27】Takahiro Hayashi, Kawashima Koichiro, Sun Zongqi, et al. Analysis of flexural mode focusing by a semianalytical finite element method[J]. J Acoust Soc Am,2003,113(3):1241-1247.
【28】Mukdadi O M, Datta S K. Transient ultrasonic guided waves in bilayered anisotropic plates with rectangular cross section[J]. Review of Progress in Quantitative Nondestructive Evaluation,2004,23:238.
【29】Chang Z, Mal A. Scattering of lamb waves from a rivet hole with edge cracks[J]. Mechanics of Materials,1999,31:197-204.
【30】Karim M R, Awal M A, Kundu T. Elastic wave scattering by cracks and inclusions in plates: in2plane case[J]. International Journal of Solids and Structures,1999,(29):2355-2367.
【31】Cho Y, Rose J L. A boundary element solution for a mode conversion study on the edge reflection[J]. The Journal of the Acoustical Society of America,1999,(26):2097-2109.
【32】Zhao Xiaoliang, Rose J L. Boundary element modelingfor defect characterization potential in a wave guide[J]. International Journal of Solids and St ructures,2003,40:2645-2658.
【33】Zhao X, Rose J L. Three2dimensional boundary element modeling for guided waves scattering from a defect[J]. Review of Quantitative Nondestructive Evaluation,2004,23:134-141.
【34】他得安,黄瑞菊,刘镇清.数值分析方法在超声无损检测中的应用[J].声学技术,2001,23(11):485-488.
【35】Alleyne D N, Cawley P. A 2-dimensional transform method for the quantitative measurement of Lamb modes[C]. Ultrasonics Symposium. USA: Honolulu Hawaii,1990:1143-1146.
【36】Shin H J, Song S J. Time-localization frequency analysis of ultrasonic guided waves for non-destructive testing[J]. Review of Progress in Quantitative Nondestructive Evaluation,2000,(18):709.
【37】Christine Valle, Jerrol W, Littles Jr. Flaw localization using the reassigned spectrogram on laser-generated and detected Lamb modes[J]. Ultrasonics,2002,39:535-542.
【38】Paul D Wilcox. A rapid signal processing technique to remove the effect of dispersion f rom guided wave signals[J]. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control,2003,50(4):419.
【39】Nicolas Leymarie, Baste Stephane. Guided waves and ultrasonic characterization of 3-dimensional composites[J]. Review of Progress in Quantitative Nondestructive Evaluation,2000(28):1175-1181.
【40】Zhao X, Kwan C, Xu R, et al. Nondestructive inspection of metal matrix composites using guided waves[J]. Review of Progress in Quantitative Nondestructive Evaluation,2004,23:914-921.
【41】Wang Y M, Kang Y H, Wu X J. Application of STFT and HOS to analyze magnetostrictively generated pulse-echo signals of a steel pipe defect[J]. NDT&E International,2006,39:289-292.
【2】Kwun H, Teller C M. Detection of fractured wires in steel cables using magnetostrictive sensors[J]. Materials Evaluation,1994,52(4):503-507.
【3】Kwun H, Bartels K A. Magnetostrictive sensor technology and its applications[J]. Ultrasonics,1998,36:171-178.
【4】Kwun H, Holt C M. Feasibility of under-lagging corrosion detection in steel pipe using the magnetostrictive sensor technique[J]. NDT&E International,1995,28(4):211-214.
【5】Yichi Lu. Magnetostrictive characterization of notches in steel pipes[J]. SPIE,1999,3588:48-56.
【6】Laguerre L, Aime J C, Brissaud M. Magnetostrictive pulse-echo device for non-destructive evaluation of cylindrical steel materials using longitudinal guided waves[J]. Ultrasonics,2002,39:503-514.
【7】Wang Yuemin, Kang Yihua, Wu Xinjun. Application of magnetostrictive generation of guided wave to non-destructive testing of pipes[C]. Conference Proceedings of the 7th International Conference on Electronic Measurement & Instruments, Beijing 2005:88-91.
【8】王悦民,康宜华,武新军.基于磁致伸缩效应的圆管缺陷检测实验研究[J].振动、测试与诊断,2004,24(3):210-213.
【9】王悦民,康宜华,武新军.磁致伸缩效应及其在无损检测中的应用研究[J].华中科技大学学报,2005,33(1):75-77.
【10】王悦民,康宜华,武新军.磁致伸缩效应在圆管中激发纵向导波的理论和试验研究[J].机械工程学报,2005,41(10):174-179.
【11】刘镇清.超声无损检测中的导波技术[J].无损检测,1999,21(8):367-369.
【12】Silk M G, Bainton K F. The propagation in metal tubing of ultrasonic wave modes equivalent to Lamb waves[J]. Ultrasonics,1979,17(1):11-19.
【13】Lowe MJ S. Mat rix techniques for modeling ultrasonicwaves in multilayered 2media[J]. IEEE U FFC,1995,42:525-542.
【14】James Barshinger, Rose J L. Guided wave resonance tuning for pipe inspection[J]. Journal of Pressure Vessel Technology,2002,124:303-304.
【15】他得安,刘镇清,贺鹏飞.复合管状结构中超声导波的位移分布[J].复合材料学报,2003,20(6):130-136.
【16】杜光升,王耀俊,袁忆丰,等.具有弱界面的柱状复合结构中轴对称声导波[J].物理学报,1998,47(1):27.
【17】Aristegui C, Lowe MJ S, Cawley P. Guided waves in fluid filled pipes surrounded by different fluids[J]. Ultrasonics,2001,39:367-375.
【18】Yang C H, Shue C J. Guided waves propagating in a piezoelectric plate immersed in a conductive fluid[J]. NDT &E International,2001,34:199-206.
【19】他得安,刘镇清,贺鹏飞.充粘性液管材中超声纵向导波的无损检测参数选择[J].声学学报,2004,29(3):104-110.
【20】Rose J L. Recent advances in guided waves[C]. IEEE Ultrasonic Symposium. Berlin:1995:725.
【21】他得安,刘镇清,贺鹏飞.复合管状结构中超声导波的位移分布[J].复合材料学报,2003,20(6):130-136.
【22】Lee Chong Myoung, Rose J L, Cho Younho, et al. Guided wave feasibility in layered devices[J]. Review of Quantitative Nondestructive Evaluation,2004,23:254-261.
【23】他得安,刘镇清,贺鹏飞.以能量密度为参量的管中导波无损检测参数选择[J].应用力学学报,2003,20(2):72-77.
【24】Roth D J, Cosgriff L M, Martin R E, et al. Microstructural and defect characterization in ceramic composites using an ult rasonic guided wave scan system[J]. Review of Quantitative Nondestructive Evaluation,2000,23:906-913.
【25】他得安,易 勇,刘镇清.传播距离对管中导波传播特性的影响[J].无损检测,2003,25(11):553-556.
【26】Tobias Lentenegger, Dual Jurg. Detection of defects in cylindrical structures using a time reverse method and a finite-difference approach[J]. Ultrasonics,2002,40:721-725.
【27】Takahiro Hayashi, Kawashima Koichiro, Sun Zongqi, et al. Analysis of flexural mode focusing by a semianalytical finite element method[J]. J Acoust Soc Am,2003,113(3):1241-1247.
【28】Mukdadi O M, Datta S K. Transient ultrasonic guided waves in bilayered anisotropic plates with rectangular cross section[J]. Review of Progress in Quantitative Nondestructive Evaluation,2004,23:238.
【29】Chang Z, Mal A. Scattering of lamb waves from a rivet hole with edge cracks[J]. Mechanics of Materials,1999,31:197-204.
【30】Karim M R, Awal M A, Kundu T. Elastic wave scattering by cracks and inclusions in plates: in2plane case[J]. International Journal of Solids and Structures,1999,(29):2355-2367.
【31】Cho Y, Rose J L. A boundary element solution for a mode conversion study on the edge reflection[J]. The Journal of the Acoustical Society of America,1999,(26):2097-2109.
【32】Zhao Xiaoliang, Rose J L. Boundary element modelingfor defect characterization potential in a wave guide[J]. International Journal of Solids and St ructures,2003,40:2645-2658.
【33】Zhao X, Rose J L. Three2dimensional boundary element modeling for guided waves scattering from a defect[J]. Review of Quantitative Nondestructive Evaluation,2004,23:134-141.
【34】他得安,黄瑞菊,刘镇清.数值分析方法在超声无损检测中的应用[J].声学技术,2001,23(11):485-488.
【35】Alleyne D N, Cawley P. A 2-dimensional transform method for the quantitative measurement of Lamb modes[C]. Ultrasonics Symposium. USA: Honolulu Hawaii,1990:1143-1146.
【36】Shin H J, Song S J. Time-localization frequency analysis of ultrasonic guided waves for non-destructive testing[J]. Review of Progress in Quantitative Nondestructive Evaluation,2000,(18):709.
【37】Christine Valle, Jerrol W, Littles Jr. Flaw localization using the reassigned spectrogram on laser-generated and detected Lamb modes[J]. Ultrasonics,2002,39:535-542.
【38】Paul D Wilcox. A rapid signal processing technique to remove the effect of dispersion f rom guided wave signals[J]. IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control,2003,50(4):419.
【39】Nicolas Leymarie, Baste Stephane. Guided waves and ultrasonic characterization of 3-dimensional composites[J]. Review of Progress in Quantitative Nondestructive Evaluation,2000(28):1175-1181.
【40】Zhao X, Kwan C, Xu R, et al. Nondestructive inspection of metal matrix composites using guided waves[J]. Review of Progress in Quantitative Nondestructive Evaluation,2004,23:914-921.
【41】Wang Y M, Kang Y H, Wu X J. Application of STFT and HOS to analyze magnetostrictively generated pulse-echo signals of a steel pipe defect[J]. NDT&E International,2006,39:289-292.
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