激光超声技术及其应用
Laser Ultrasonic Technology and Its Applications
摘 要
综述了激光超声技术的基本特点,介绍了激光超声产生机理及检测方法。概述了激光超声技术在工业无损检测技术中的应用。得出激光超声技术作为一种新兴技术,具有非接触、远距离、高时空分辨力等特点,将在工业无损检测中具有十分广泛的应用价值。
无损检测
非接触
时空分辨力
Laser ultrasonic
Nondestructive testing
Non-contact
Spatial and temporal resolution
Abstract
The features of laser ultrasonic techniques are reviewed in the paper. Laser ultrasonic generation mechanism and detection methods are presented. Applications in the industrial nondestructive testing technology are commented. As an emerging technology, the laser ultrasonic is characteristic of a non-contact, long-range, high spatial and temporal resolution, which has a very wide range of applications in the industrial NDT.
中图分类号 TG115.28
所属栏目 2013远东无损检测新技术论坛论文精选
基金项目
收稿日期 2013/6/17
修改稿日期
网络出版日期
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备注曾伟(1984-),男 ,博士研究生,主要研究方向为激光超声无损检测。
引用该论文: ZENG Wei,YANG Xian-Ming,WANG Hai-Tao,TIAN Gui-Yun,FANG Lin. Laser Ultrasonic Technology and Its Applications[J]. Nondestructive Testing, 2013, 35(12): 49~52
曾伟,杨先明,王海涛,田贵云,方凌. 激光超声技术及其应用[J]. 无损检测, 2013, 35(12): 49~52
被引情况:
【1】张世亮,郭奇,刘少伟,郭丽杰,李明毅, "阵列涡流传感器表面裂纹检测的有限元仿真",无损检测 37, 29-33(2015)
【2】曾伟,王海涛,田贵云,胡国星,杨先明,万敏, "基于波速分析的激光超声检测技术",无损检测 36, 38-41(2014)
【3】郭瑞鹏,王海涛,徐君,胡国星,曾伟,杨先明, "基于光声效应的激光超声波检测技术",无损检测 37, 1-4(2015)
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参考文献
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【2】Askaryan G A. Excess negative charge of an electron-photon shower and its coherent radio emission[J]. Soviet Physics,1963,14(2):441-443.
【3】Ledbetter H M, Moulder J C. Laser-induced Rayleigh waves in aluminum[J].J Acoust Soc Am,1979(65):840-842.
【4】JMonchalin P, Heon R. Laser ultrasonic generation and optical-detection with a confocal Fabry-Pérot interferometer[J]. Mater Eval,1986,44(9):1231-1237.
【5】Podymova N, Karabutov A. Laser optoacoustic non-destructive method of thickness measurement of subsurface damaged layer in machined silicon wafers [J].Journal of Physics,2010,214(1):12-54.
【6】Podymova N, Karabutov A, Ikobelev L. Laser optoacoustic method of local porosity measurement of particles reinforced Composites [J].Journal of Physics,2011,218(1):12-38.
【7】Master ZM, Michaels TE, Michaels JE. Incident wave removal for defect enhancement in acoustic wave field imaging[J].AIP CP894-Review of Quantitative Nondestructive Evaluation,2007(26):665.
【8】潘永东.激光超声检测铝合金材料的残余应力分布[J].声学学报,2004(3):254-257.
【9】Ruzzene M. Frequency-wave number domain filtering for improved damage visualization[J].Smart Materials and Structures,2007(16):2116.
【10】Michaels TE, Massimo R, Michaels JE. Incident wave removal through frequency-wave number filtering of full wavefield data[J].AIP CP1096-Review of Quantitative Nondestructive Evaluation,2009(28):604.
【11】Jung-Ryul Lee, Chen Ciang Chia, Chan-Yik Park, et al. Laser ultrasonic anomalous wave propagation imaging method with adjacent wave subtraction: Algorithm[J].Optics & Laser Technology,2012(44):1507-1515.
【12】Jung-Ryul Lee, Chen Ciang Chia, Chan-Yik Park. Laser ultrasonic anomalous wave propagation imaging method with adjacent wave subtraction: Application to actual damages in composite wing[J].Optics & Laser Technology,2012(44):428-440.
【13】Yu L, Giurgiutiu V. Advanced signal processing for enhanced damage detection with piezoelectric wafer active sensors[J].Smart Structuresand Systems,2005,1(2):185-215.
【14】Fan W, Qiao P. A 2-D continuous wavelet transform of mode shape data for damage detection of plate structures[J].International Journal of Solids and Structures,2009(46):4379-4395.
【15】钱盛发.光声结合用于擞物组织成像的研究进展[J].激光生物学报,2000,9(3):228-231.
【16】王亚非.激光扫描声学显微镜光学系统的设计[J].光学技术,1998(5):73-75,81.
【17】马勇.超谐次声波场及其生物组织成像的理论及实验研究[J].声学学报,2006,31(5):433-437.
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