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超声导波在管道中传播的可视化模拟研究 被引量:5

Simulated visualization of guided wave propagation in pipes
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摘要 利用有限元方法建立管道导波3-D模型,通过在管道中激励纵向超声波,模拟导波在管道中的传播形态。根据回波信号的传播时间计算了纵波传播速度,与频散曲线得到的纵波速度符合较好。从观测点取得的波信号能够反映超声波在管道中传播时存在的反射和衰减现象,动画结果能够形象直观地反映导波在管道中传播的情形,实现了导波传播的可视化模拟。该研究有利于更好地解释导波在管道无损检测中出现的频散特征。 The three-dimensional finite element model of guided wave in the pipe was built by the finite element method. The mode simulated the propagation of guided wave in a pipe by applying the longitudinal ultrasonic to the pipe end. The velocity of the longitudinal ultrasonic was calculated according to the time of the reflected echo signals which agreed with the velocity calculated from the dispersion curve. The attenuation and refection of the guided wave propagation in the pipe were indicated from the echo signals obtained from the observation point. The simulated visualization of guided wave propagation in the pipe was realized and the process was indicated intuitionistic by the animation. This research makes it easy to explain the dispersion features of the guided wave in the use of nondestructive testing in pipes.
作者 申传俊 王悦民 孙丰瑞
机构地区 海军工程大学船舶与动力学院
出处 《海军工程大学学报》 CAS 北大核心 2008年第3期31-35,共5页 Journal of Naval University of Engineering
基金 中国博士后科学基金资助项目(20060390865) 湖北省自然科学基金资助项目(2007ABA224)
关键词 导波 管道 传播 可视化 有限元方法 guided wave pipe propagation visualization finite element method
分类号 TG115.28 [金属学及工艺—物理冶金]
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参考文献5

  • 1王悦民,康宜华,武新军.管道超声导波无损检测技术应用研究[J].海军工程大学学报,2005,17(5):34-37. 被引量:20
  • 2HAYASHI T. Guided wave animation using semi-analytical finite element method [J]. Review of Quantitative Nondestructive Evaluation, 2006,25: 118 - 125.
  • 3PARK J S, YU H J, SONG S, et al. Analysis of ultrasonic guided wave dispersion in pipes using 3-D FEM and 2- D FFT [J]. Review of Quantitative Nondestructive Evaluation, 2006,24 : 219- 225.
  • 4ROSE J L. Ultrasonic waves in solid media [M]. Cambridge: Cambridge University Press, 1999.
  • 5程载斌,王志华,张立军,马宏伟.管道超声纵向导波裂纹检测数值模拟[J].应用力学学报,2004,21(4):76-79. 被引量:33

二级参考文献15

  • 1王悦民,康宜华,武新军.基于磁致伸缩效应的钢管缺陷检测实验研究[J].振动.测试与诊断,2004,24(3):210-213. 被引量:16
  • 2Gazis D.C. Three-dimensional investigation of the propagation of waves in hollow circular cylinders, I. Analytical foundation[J]. J Acoust Soc Am,1959, 31(5):568-573
  • 3Silk 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
  • 4M.J.S.Lowe, D.N.Alleyne ,P.Cawley. Defect detection in pipes using guided waves[J]. Ultrasonics ,1998, (36) :147-154
  • 5M.J.S.Lowe, D.N.Alleyne ,P.Cawley. The mode conversion of a guided wave by a part-circumferential notch in a pipe[J]. J Appl Mech,1998,65,:649-656
  • 6D.N.Alleyne M.J.S.Lowe P.Cawley. The reflection of guided waves from circumferential notches in pipes[J]. J Appl Mech, 1998,65:635-641
  • 7Lowe M J S, Alleyne D N, Peter Cawley. Mode conversion of guided waves by defects in pipes[J]. Review of Progress in Quantitative Nondestructive Evaluation, 1997,16:1261-1268
  • 8Moon Ho Park, In Sup Kim, Young Ku Yoon. Ultrasonic inspection of long steel pipes using Lamb waves[J]. NDT & E International, 1996, 29(1):13-20
  • 9Kwun H, Holt C M. Feasibility of under-lagging corrosion detection in steel pipe using the magnetostrictive sensor technique [J]. NDT&E International, 1995,28:211-214.
  • 10Laguerre 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.

共引文献51

同被引文献33

引证文献5

二级引证文献39

海军工程大学学报
2008年 第3期

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