双金属复合板超声检测方法对比研究
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摘要
针对20碳钢+316L不锈钢双金属复合板进行了超声检测方法对比研究,采用常规超声横波斜探头、纵波直探头、纵波双晶直探头以及超声相控阵对同样的模拟缺陷进行检测,对实验数据进行对比分析,得出不同类型的缺陷所对应的最适合的超声检测方法,并且分析其原因,为双金属复合板的检测提供参考。实验结果表明,纵波双晶直探头及超声相控阵检测定位较为准确,适合于双金属复合板的检测。
The ultrasonic testing methods for bimetal composite plate are studied in this paper. The four methods,such as shear wave angle probe,longitudinal wave probe,longitudinal TR transducer and ultrasonic phased array are used for the same artificial defect testing. The experimental data is analyzed and compared to find most suitable method for bimetal composite plate. The result can provide reference for double metal composite plate testing. The experimental results show that the longitudinal TR transducer and ultrasonic phased array are more suitable for the testing of bimetal composite plate.
The ultrasonic testing methods for bimetal composite plate are studied in this paper. The four methods,such as shear wave angle probe,longitudinal wave probe,longitudinal TR transducer and ultrasonic phased array are used for the same artificial defect testing. The experimental data is analyzed and compared to find most suitable method for bimetal composite plate. The result can provide reference for double metal composite plate testing. The experimental results show that the longitudinal TR transducer and ultrasonic phased array are more suitable for the testing of bimetal composite plate.
引文
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[13]于润桥,万冠杰,胡博,等.双金属复合管缺陷微磁检测技术研究[J].焊管,2016,39(2):29-32.
[14]廖嘉,刘志云,陆铭慧.超声F-Scan成像技术检测双金属复合材料的方法[J].无损检测,2011,33(10):4-7.
[15]郑钢丰,夏皖东,周凯峰,等.基于超声相控阵技术的双金属复合板缺陷研究[J].压电与声光,2017,39(3):437-441.
[2]郑红霞,李宝宽,昌泽舟.金属复合板生产方法的发展现状[J].炼钢,2001(2):20-23.
[3]Datta S K,Shah A H,Bratton R L,et al.Wave propagation in laminated composite plates[J].Journal of the Acoustical Society of America,1988,83(6):1-8.
[4]Qiu L,Liu B,Yuan S,et al.A scanning spatial-wavenumber filter and PZT 2-D cruciform array based on-line damage imaging method of composite structure[J].Sensors&Actuators A Physical,2016,248:62-72.
[5]Chan H,Masserey B,Fromme P.High frequency guided ultrasonic waves for hidden fatigue crack growth monitoring in multilayer model aerospace structures[J].Smart Materials&Structures,2015,24(2):25-37.
[6]Shaternikov V E,Klyuev S V.Multiparameter eddy-current NDT method for quality control of thin-sheet,multilayer products and coatings[C]//Shanghai,World Conference on Non-Destructive Testing,2008:696-699.
[7]Chang N,Zheng T,Ren Y.Application of the spectral analysis in ultrasonic quantitative testing of bonding defect of composite material[J].International Workshop on Education Technology and Computer Science,2009,3:943-945.
[8]李建民,王金新,范长信.风扇磨煤机双金属复合冲击板的超声探伤方法[J].热力发电,1991(4):35-39.
[9]张超,阎守国,张碧星,等.分层固体板中导波的激发与频散特性[J].声学学报,2017(1):85-94.
[10]郑文江,曹福想,郭少宏,等.不锈钢复合板对接焊缝超声波检测中的定位误差[J].无损检测,2016,38(1):49-51.
[11]许寒晖,徐春广.复合板超声导波检测理论与技术[J].机械工程学报,2013(1):163.
[12]周海林,孙鑫,王建斌,等.基于Morlet-P小波的多层金属结构的超声检测研究[J].无损检测,2007,29(6):319-321.
[13]于润桥,万冠杰,胡博,等.双金属复合管缺陷微磁检测技术研究[J].焊管,2016,39(2):29-32.
[14]廖嘉,刘志云,陆铭慧.超声F-Scan成像技术检测双金属复合材料的方法[J].无损检测,2011,33(10):4-7.
[15]郑钢丰,夏皖东,周凯峰,等.基于超声相控阵技术的双金属复合板缺陷研究[J].压电与声光,2017,39(3):437-441.