Long-distance structural health monitoring of buried pipes based on torsional guided wave T(0,1)
摘 要
针对不同变形模式压电换能器激发与接收管道中基频扭转导波T(0,1)的特点,设计了一种一发一收式T(0,1)波压电环形阵列。其中,厚度剪切d15模式的压电圆环用于T(0,1)波的激发,面内剪切d24模式的压电圆环用于T(0,1)波的接收。试验验证了这种换能器激发T(0,1)波的信噪比和T(0,1)波在埋地管道中的衰减。结果表明,该换能器对不同涂层埋地管道的探测距离超过20 m,在埋地管道的长距离结构健康监测中具有很好的应用前景。
Abstract
In this paper, a pitch-catch piezoelectric ring array was proposed for generation and reception of the fundamental torsional wave T(0,1) in pipes according to the performance of piezoelectric transducers with different deformation mechanism. Thickness-shear d15 piezoelectric ring array was employed for T(0,1) wave generation while face-shear d24 piezoelectric ring array was adopted for T(0,1) wave reception. Experiments were carried out to investigate the signal-to-noise ratio of T(0,1) wave generated by the proposed transducer and the wave attenuation in buried pipes. Results indicated that the proposed transducer could detect buried pipes with different coatings over 20 m, which was very suitable for long-distance structural health monitoring of buried pipes.
中图分类号 TG115.28 DOI 10.11973/wsjc202007001
所属栏目 试验研究
基金项目 自然科学基金面上项目(11672003)
收稿日期 2019/12/18
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备注宦强(1993-),男,博士,主要研究方向为压电换能器、结构健康监测
引用该论文: HUAN Qiang,CHEN Mingtong,LI Faxin. Long-distance structural health monitoring of buried pipes based on torsional guided wave T(0,1)[J]. Nondestructive Testing, 2020, 42(7): 1~4
宦强,陈铭桐,李法新. 基于扭转导波T(0,1)的埋地管道长距离结构健康监测[J]. 无损检测, 2020, 42(7): 1~4
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参考文献
【1】焦敬品, 何存富, 吴斌, 等. 管道超声导波检测技术研究进展[J]. 实验力学, 2002, 17(1):1-9.
【2】何存富, 李隆涛, 吴斌. 超声导波在管道中传播的数值模拟[J]. 北京工业大学学报,2004,30(2):129-133.
【3】DEMMA A, CAWLEY P, LOWE M, et al. The reflection of the fundamental torsional mode from cracks and notches in pipes[J]. The Journal of the Acoustical Society of America, 2003, 114(2):611-625.
【4】ROSE J L. Ultrasonic guided waves in solid media[M]. Cambridge:Cambridge University Press, 2014.
【5】KWUN H, KIM S, CRANE J F. Method and apparatus generating and detecting torsional wave inspection of pipes or tubes:U.S.,6,429,650[P]. 2002-8-6.
【6】ZHOU W, YUAN F G, SHI T. Guided torsional wave generation of a linear in-plane shear piezoelectric array in metallic pipes[J]. Ultrasonics,2016,65:69-77.
【7】ALLEYNE D N, PAVLAKOVIC B, LOWE M J S, et al. Rapid, long range inspection of chemical plant pipework using guided waves[J]. Key Engineering Materials, 2004,270:434-441.
【2】何存富, 李隆涛, 吴斌. 超声导波在管道中传播的数值模拟[J]. 北京工业大学学报,2004,30(2):129-133.
【3】DEMMA A, CAWLEY P, LOWE M, et al. The reflection of the fundamental torsional mode from cracks and notches in pipes[J]. The Journal of the Acoustical Society of America, 2003, 114(2):611-625.
【4】ROSE J L. Ultrasonic guided waves in solid media[M]. Cambridge:Cambridge University Press, 2014.
【5】KWUN H, KIM S, CRANE J F. Method and apparatus generating and detecting torsional wave inspection of pipes or tubes:U.S.,6,429,650[P]. 2002-8-6.
【6】ZHOU W, YUAN F G, SHI T. Guided torsional wave generation of a linear in-plane shear piezoelectric array in metallic pipes[J]. Ultrasonics,2016,65:69-77.
【7】ALLEYNE D N, PAVLAKOVIC B, LOWE M J S, et al. Rapid, long range inspection of chemical plant pipework using guided waves[J]. Key Engineering Materials, 2004,270:434-441.
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