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。

所属栏目

综 述湖北省自然科学基金资助项目(2004ABA028)

收稿日期

2006/9/26

作者单位

王悦民:海军工程大学船舶与动力学院，武汉 430033
谢俊丽:中国船级社武汉规范研究所，武汉 430022
刘 东:华中科技大学，武汉 430022
沈立华:海军工程大学船舶与动力学院，武汉 430033
孙丰瑞:海军工程大学船舶与动力学院，武汉 430033

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】

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)

【2】

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)
参考文献

【1】

Kaule W. Magnetostrictive ultrasonic testing of materials[C]. Proceedings of the 4th International Conference on Non-destructive Testing. London:1964:291.

【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.