Longitudinal mode magnetostrictive patch transducer array employing a multi-splitting meander coil for pipe inspection

Abstract Recently, a magnetostrictive patch transducer (MPT) by means of the highly magnetostrictive (such as nickel or iron–cobalt alloy) patch attached on the specimen has been applied in nondestructive ultrasonic testing in waveguides. In the study, we proposed a new MPTs array employing a multi-splitting meander coil (MSMC) for generating and receiving longitudinal guided waves in pipes. In the suggested configuration, the directions of the static magnetic field produced by the permanent magnets and the dynamic magnetic field produced by the MSMC are in the axial direction of the pipe. Two finite element models were established to simulate the distribution of the static and dynamic magnetic fields in the patch, respectively. The proposed MSMC was made of flexible printed circuit (FPC), so it could be easily installed on pipe surface. The performance of the proposed MPTs array was experimentally studied. Firstly, it was experimentally verified that the axisymmetric longitudinal guided wave mode, L(0,2), could be effectively generated and received in pipes with the developed MSMC-MPTs array. Secondly, the frequency response characteristics of the developed MSMC-MPTs array were related to D (the distance between adjacent belts of the MSMC). Thirdly, we demonstrated the ability of the developed MSMC-MPTs array for the identification and location of a crack defect in pipes. Finally, we compared the performances of the MSMC-MPTs array and conventional meander coil-MPTs and proved that the signals of the longitudinal guided wave mode could be enhanced by using the developed MSMC-MPTs array.

[1]  C. M. Fortunko,et al.  The design and use of electromagnetic acoustic wave transducers (EMATs) , 1983 .

[2]  J. Rose,et al.  Angular-profile tuning of guided waves in hollow cylinders using a circumferential phased array , 2002, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[3]  Hegeon Kwun,et al.  Feasibility of under-lagging corrosion detection in steel pipe using the magnetostrictive sensor technique , 1995 .

[4]  Cunfu He,et al.  The application of low frequency longitudinal guided wave mode for the inspection of multi-hole steel floral pipes , 2012 .

[5]  Seung Hyun Cho,et al.  Beam-focused shear-horizontal wave generation in a plate by a circular magnetostrictive patch transducer employing a planar solenoid array , 2008 .

[6]  Young Eui Kwon,et al.  Review of magnetostrictive patch transducers and applications in ultrasonic nondestructive testing of waveguides. , 2015, Ultrasonics.

[7]  Y. Kim,et al.  Analysis of internal wave reflection within a magnetostrictive patch transducer for high-frequency guided torsional waves. , 2011, Ultrasonics.

[8]  Lei Kang,et al.  Analysis of multiple wavelengths of Lamb waves generated by meander-line coil EMATs. , 2014, Ultrasonics.

[9]  M. Lowe,et al.  Defect detection in pipes using guided waves , 1998 .

[10]  Hegeon Kwun,et al.  Magnetostrictive generation and detection of longitudinal, torsional, and flexural waves in a steel rod , 1994 .

[11]  Hirotsugu Ogi,et al.  EMATS for science and industry , 2003 .

[12]  J. Ditri Utilization of guided elastic waves for the characterization of circumferential cracks in hollow cylinders , 1994 .

[13]  Xinjun Wu,et al.  A Guided Wave Sensor Based on the Inverse Magnetostrictive Effect for Distinguishing Symmetric from Asymmetric Features in Pipes , 2015, Sensors.

[14]  Hoon Sohn,et al.  Instantaneous reference-free crack detection based on polarization characteristics of piezoelectric materials , 2007 .

[15]  Yoon Young Kim,et al.  Circumferential phased array of shear-horizontal wave magnetostrictive patch transducers for pipe inspection. , 2013, Ultrasonics.

[16]  Peter Cawley,et al.  Study and comparison of different EMAT configurations for SH wave inspection , 2011, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[17]  Bin Wu,et al.  Circumferential and longitudinal defect detection using T(0,1) mode excited by thickness shear mode piezoelectric elements. , 2006, Ultrasonics.

[18]  D. MacLauchlan,et al.  RECENT ADVANCEMENTS IN THE APPLICATION OF EMATS TO NDE , 2004 .

[19]  Peter Cawley,et al.  Experimental and numerical evaluation of electromagnetic acoustic transducer performance on steel materials , 2012 .

[20]  Seung-Hyun Cho,et al.  Z-shaped magnetostrictive patch for efficient transduction of a torsional wave mode in a cylindrical waveguide , 2006 .

[21]  Huang Songling,et al.  A new frequency-tuned longitudinal wave transducer for nondestructive inspection of pipes based on magnetostrictive effect , 2010, 2010 IEEE Sensors Applications Symposium (SAS).

[22]  P. Nagy,et al.  The impact of magnetostriction on the transduction of normal bias field EMATs , 2012 .

[23]  A. G. Roosenbrand,et al.  The reflection of the fundamental torsional mode from cracks and notches in pipes. , 2003, The Journal of the Acoustical Society of America.

[24]  Peter Cawley,et al.  Long range propagation of Lamb waves in chemical plant pipework , 1997 .

[25]  Zenghua Liu,et al.  Torsional mode magnetostrictive patch transducer array employing a modified planar solenoid array coil for pipe inspection , 2015 .

[26]  Songling Huang,et al.  Multi-belts coil longitudinal guided wave magnetostrictive transducer for ferromagnetic pipes testing , 2011 .

[27]  Peter Cawley,et al.  The excitation of Lamb waves in pipes using dry-coupled piezoelectric transducers , 1996 .

[28]  Seung-Hyun Cho,et al.  Guided wave transduction experiment using a circular magnetostrictive patch and a figure-of-eight coil in nonferromagnetic plates , 2006 .