激光超声无损检测技术研究进展
摘要
随着缺陷检测要求越来越高,非接触式无损检测应用越来越广泛。激光超声无损检测技术作为非接触式无损检测的一种新型检测手段,凭借其显著的优势逐渐受到广泛关注。本文基于激光超声无损检测技术的研究进展,与空气耦合超声、电磁超声、静电耦合超声等主要非接触式无损检测进行了优劣势比较,介绍了激光超声技术国内外研究现状和应用情况,提出了目前激光超声无损检测遇到的技术难点,并对激光超声无损检测技术的发展进行总结和展望。
引文
[1]马保全,周正干.航空航天复合材料结构非接触无损检测技术的进展及发展趋势[J].航空学报,2014, 35(07):1787-1803.
[2]Ma Baoquan,Zhou Zhenggan,Zhao Hanxue,et al. Characterisation of inclusions and disbonds in honeycomb composites using non-contact non-destructive testing techniques.[J].INSIGHT,2015,57(9):499-507.
[3] Solodov I, Dillenz A, Kreutzbruck M, A new mode of acoustic NDT via resonant air-coupled emission[J].Journal of Applied Physics,2017,121(24):26-31.
[4]冯蒙丽,蔡玉平,宋春荣,等.几种电磁无损检测技术比较及发展现状[J].四川兵工学报,2012,33(2):107-110.
[5]Xie S J,Tian M M,Xiao P,et al. A hybrid nondestructive testing method of pulsed eddy current testing and electromagnetic acoustic transducer techniques for simultaneous surface and volumetric defects inspection[J]. NDT&E INTERNATIONAL, 2017:153-163.
[6]吴本华.非接触式超声波检测技术简介[A].远东无损检测新技术论坛,2008:4.
[7]胡婷萍,高丽敏,杨海楠.激光超声技术在航空复合材料无损检测中的应用[J].航空制造技术,2018,61(19):50-57.
[8]赵扬,郭锐,宋江峰,等.激光-EMAT法非接触式无损检测金属内部缺陷研究[J].激光技术,2013,37(3):277-280.
[9] Ashley Steven. Nondestructive evaluation with laser ultrasound.[J].Mechanical Engineering, 1994,116(10):63.
[10] Zhang Y J,Wang X C,Yang Q, et al. Characterization of mean grain size of interstitial-free steel based on laser ultrasonic[J]. Journal of Materials Science,2018,53(11):8510-8522.
[11]夏利利,杨文革,董正宏.非接触超声检测技术在航天无损检测中的研究与应用[J].装备指挥技术学院学报,2007(4):58-62.
[12]赵扬.油气管道厚度的横波电磁超声检测技术研究[A].远东无损检测新技术论坛,2017:4.
[13]刘洋,项占琴,唐志峰.激光超声技术在钢轨探伤中的应用研究[J].机械设计与制造,2009(10):60-61.
[14]曾伟.扫查式激光超声技术及其在表面缺陷检测中的应用研究[D].南京航空航天大学,2016.
[15] Karabutov A, Devichensky A, Ivochkin A, et al. Laser ultrasonic diagnostics of residual stress[J]. UItrasonics,2008, 48(6/7):631-635.
[16]陈清明,蔡虎,程祖海.激光超声技术及其在无损检测中的应用[J].激光与光电子学进展,2005(4):53-57.
[17] Yashiro S,Takatsubo J,Miyauchi H,et al. A novel technique for visualizing ultrasonic waves in general solid media by pulsed laser scan[J].Ndt&E International,2008,41(2):137-144.
[18] Arrigoni M,Monchalin J P,Blouin A,et al.Laser Doppler interferometer based on a solid Fabry-Perot etalon for measurement of surface velocity in shock experiments[J].Measurement Science&Technology, 2009, 20(1):015302.
[19] Nigrelli V. Detection of Disbonds in Multi-Layer Structures by Laser-Based Ultrasonic Technique[J].Journal of Adhesion,2008,84(10):811-829.
[20] Gong J,Ume I C,Akinade K,et al.Quality Evaluation of Solder Bump in PBGA Package for Commercial Product Application Using Laser Ultrasonic Technique[C]//ASME 2013 International Mechanical Engineering Congress and Exposition,2013:V010T11A084.
[21] Moura A,Lomonosov A M,Hess P.Depth evaluation of surface-breaking cracks using laser-generated transmitted rayleigh waves[J]. Journal of Applied Physics, 2008,103(8):084911 1-6.
[22] Chen C C,Lee J R,Park C Y,et al.Laser ultrasonic anomalous wave propagation imaging method with adjacent wave subtraction:Application to actual damages in composite wing[J].Optics&Laser Technology, 2011,44(2):428-440.
[23] Kenderian S,Cerniglia D,Djordjevic B B,et al. Laser-air hybird ultrasonic technique for dynamic railroad inspection applications[J].Or Insight,2010,47(6):336-340.
[24] Cavuto A,Martarelli M,Pandarese G,et al.Experimrntal investigation by laser ultrasonics fou high speed train axle diagnostics[J].Ultrasonics,2014,55(1):48-57.
[25] Karabutov A A,Podymova N B,Cherepetskaya E B.Determination of uniaxial stresses in steel structures by the laser-ultrasonic method[J]. Journal of Applied Mechanics&Thchnical Physics,2017,58(3):503-510.
[26] Ni C Y, Wang L J, Shen Z H, et al. A study of surface breaking crack evaluating by using scanning laser sourcedual laser source technique[J].Nondestr Tes Eval,2010,25(2):111-116.
[27] Dai Y, Xu B Q,Luo Y,et al. Finite element modeling of the interaction of laser-generated ultrasound with a surface-breaking notch in an elastic plate[J]. Optics&Laster Technology,2010,42(4):693-697.
[28]董利明.金属焊接残余应力的激光超声无损检测研究[D].南京理工大学,2012.
[29]郑德根,陈华斌,王继峰,等.基于激光超声的铝合金搅拌摩擦焊典型缺陷检测及分析[J].焊接学报,5015,36(7):35-38.
[30]孙开广,周正干,陈曦.激光超声技术在先进复合材料无损检测中的应用研究[J].失效分析与预防,2016,11(5):276-282.
[31]曹建树,曹振,赵龙飞,等.激光超声管道表面裂纹检测技术[J].光电工程,2016,43(3):1-6.
[32]朱洪玲,刘畅,张博,等.激光超声可视化图像处理研究[J/OL].中国激光:1-13[2018-12-23].http://kns. cnki. net/kcms/detail/31. 1339. TN. 20171017. 0258.010.html.
[33]江奕.激光超声技术及在无损检测中的应用[A].远东无损检测新技术论坛,2017:5.
[34]张昭,肖迎春,李闵行,等.激光超声技术在航空碳纤维复合材料无损检测中的应用[J].航空工程进展,2014,5(3):269-274.
[35]尹向宝.激光超声无损检测技术及其在岩体物性测试中的应用[J].大学物理,2008(7):41-44.
[2]Ma Baoquan,Zhou Zhenggan,Zhao Hanxue,et al. Characterisation of inclusions and disbonds in honeycomb composites using non-contact non-destructive testing techniques.[J].INSIGHT,2015,57(9):499-507.
[3] Solodov I, Dillenz A, Kreutzbruck M, A new mode of acoustic NDT via resonant air-coupled emission[J].Journal of Applied Physics,2017,121(24):26-31.
[4]冯蒙丽,蔡玉平,宋春荣,等.几种电磁无损检测技术比较及发展现状[J].四川兵工学报,2012,33(2):107-110.
[5]Xie S J,Tian M M,Xiao P,et al. A hybrid nondestructive testing method of pulsed eddy current testing and electromagnetic acoustic transducer techniques for simultaneous surface and volumetric defects inspection[J]. NDT&E INTERNATIONAL, 2017:153-163.
[6]吴本华.非接触式超声波检测技术简介[A].远东无损检测新技术论坛,2008:4.
[7]胡婷萍,高丽敏,杨海楠.激光超声技术在航空复合材料无损检测中的应用[J].航空制造技术,2018,61(19):50-57.
[8]赵扬,郭锐,宋江峰,等.激光-EMAT法非接触式无损检测金属内部缺陷研究[J].激光技术,2013,37(3):277-280.
[9] Ashley Steven. Nondestructive evaluation with laser ultrasound.[J].Mechanical Engineering, 1994,116(10):63.
[10] Zhang Y J,Wang X C,Yang Q, et al. Characterization of mean grain size of interstitial-free steel based on laser ultrasonic[J]. Journal of Materials Science,2018,53(11):8510-8522.
[11]夏利利,杨文革,董正宏.非接触超声检测技术在航天无损检测中的研究与应用[J].装备指挥技术学院学报,2007(4):58-62.
[12]赵扬.油气管道厚度的横波电磁超声检测技术研究[A].远东无损检测新技术论坛,2017:4.
[13]刘洋,项占琴,唐志峰.激光超声技术在钢轨探伤中的应用研究[J].机械设计与制造,2009(10):60-61.
[14]曾伟.扫查式激光超声技术及其在表面缺陷检测中的应用研究[D].南京航空航天大学,2016.
[15] Karabutov A, Devichensky A, Ivochkin A, et al. Laser ultrasonic diagnostics of residual stress[J]. UItrasonics,2008, 48(6/7):631-635.
[16]陈清明,蔡虎,程祖海.激光超声技术及其在无损检测中的应用[J].激光与光电子学进展,2005(4):53-57.
[17] Yashiro S,Takatsubo J,Miyauchi H,et al. A novel technique for visualizing ultrasonic waves in general solid media by pulsed laser scan[J].Ndt&E International,2008,41(2):137-144.
[18] Arrigoni M,Monchalin J P,Blouin A,et al.Laser Doppler interferometer based on a solid Fabry-Perot etalon for measurement of surface velocity in shock experiments[J].Measurement Science&Technology, 2009, 20(1):015302.
[19] Nigrelli V. Detection of Disbonds in Multi-Layer Structures by Laser-Based Ultrasonic Technique[J].Journal of Adhesion,2008,84(10):811-829.
[20] Gong J,Ume I C,Akinade K,et al.Quality Evaluation of Solder Bump in PBGA Package for Commercial Product Application Using Laser Ultrasonic Technique[C]//ASME 2013 International Mechanical Engineering Congress and Exposition,2013:V010T11A084.
[21] Moura A,Lomonosov A M,Hess P.Depth evaluation of surface-breaking cracks using laser-generated transmitted rayleigh waves[J]. Journal of Applied Physics, 2008,103(8):084911 1-6.
[22] Chen C C,Lee J R,Park C Y,et al.Laser ultrasonic anomalous wave propagation imaging method with adjacent wave subtraction:Application to actual damages in composite wing[J].Optics&Laser Technology, 2011,44(2):428-440.
[23] Kenderian S,Cerniglia D,Djordjevic B B,et al. Laser-air hybird ultrasonic technique for dynamic railroad inspection applications[J].Or Insight,2010,47(6):336-340.
[24] Cavuto A,Martarelli M,Pandarese G,et al.Experimrntal investigation by laser ultrasonics fou high speed train axle diagnostics[J].Ultrasonics,2014,55(1):48-57.
[25] Karabutov A A,Podymova N B,Cherepetskaya E B.Determination of uniaxial stresses in steel structures by the laser-ultrasonic method[J]. Journal of Applied Mechanics&Thchnical Physics,2017,58(3):503-510.
[26] Ni C Y, Wang L J, Shen Z H, et al. A study of surface breaking crack evaluating by using scanning laser sourcedual laser source technique[J].Nondestr Tes Eval,2010,25(2):111-116.
[27] Dai Y, Xu B Q,Luo Y,et al. Finite element modeling of the interaction of laser-generated ultrasound with a surface-breaking notch in an elastic plate[J]. Optics&Laster Technology,2010,42(4):693-697.
[28]董利明.金属焊接残余应力的激光超声无损检测研究[D].南京理工大学,2012.
[29]郑德根,陈华斌,王继峰,等.基于激光超声的铝合金搅拌摩擦焊典型缺陷检测及分析[J].焊接学报,5015,36(7):35-38.
[30]孙开广,周正干,陈曦.激光超声技术在先进复合材料无损检测中的应用研究[J].失效分析与预防,2016,11(5):276-282.
[31]曹建树,曹振,赵龙飞,等.激光超声管道表面裂纹检测技术[J].光电工程,2016,43(3):1-6.
[32]朱洪玲,刘畅,张博,等.激光超声可视化图像处理研究[J/OL].中国激光:1-13[2018-12-23].http://kns. cnki. net/kcms/detail/31. 1339. TN. 20171017. 0258.010.html.
[33]江奕.激光超声技术及在无损检测中的应用[A].远东无损检测新技术论坛,2017:5.
[34]张昭,肖迎春,李闵行,等.激光超声技术在航空碳纤维复合材料无损检测中的应用[J].航空工程进展,2014,5(3):269-274.
[35]尹向宝.激光超声无损检测技术及其在岩体物性测试中的应用[J].大学物理,2008(7):41-44.