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      https://www.riss.kr/link?id=A100536728

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      다국어 초록 (Multilingual Abstract)

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      In this work we use the mode decomposition technique employing chirplet transform, which is able to separate the individual modes from dispersive and multimodal waveform measured with the magnetostrictive sensor. The mode decomposition technique is also used to estimate the time-frequency centers and individual energies of the reflection, which would be used to locate and characterize axial defects. The arrival times of the separated modes are calculated and the axial defect lengths can be evaluated by using the estimated arrival time. Results from an experiment on a carbon steel pipe are presented and it is shown that the accurate and quantitative defect characterization could become enabled using the proposed technique.
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      In this work we use the mode decomposition technique employing chirplet transform, which is able to separate the individual modes from dispersive and multimodal waveform measured with the magnetostrictive sensor. The mode decomposition technique is al...

      In this work we use the mode decomposition technique employing chirplet transform, which is able to separate the individual modes from dispersive and multimodal waveform measured with the magnetostrictive sensor. The mode decomposition technique is also used to estimate the time-frequency centers and individual energies of the reflection, which would be used to locate and characterize axial defects. The arrival times of the separated modes are calculated and the axial defect lengths can be evaluated by using the estimated arrival time. Results from an experiment on a carbon steel pipe are presented and it is shown that the accurate and quantitative defect characterization could become enabled using the proposed technique.

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      참고문헌 (Reference)

      1 김영완, "첩릿변환을 이용한 비틀림 유도파 모드분리" 한국소음진동공학회 24 (24): 324-331, 2014

      2 김정엽, "첩릿변환을 이용한 배관 결함 특성 규명" 한국소음진동공학회 24 (24): 636-642, 2014

      3 Cheong, Y., "Ultrasonic Guided Wave Parameters for Detection of Axial Cracks in Feeder Pipes of PHWR Nuclear Power Plants" 42 (42): 883-888, 2004

      4 Demma, A., "The Reflection of Guided Waves from Notches in Pipes: a Guide for Interpreting Measurements" 37 (37): 167-180, 2004

      5 Carandente, R., "The Effect of Complex Defect Profiles on the Reflection of the Fundamental Torsion Mode in Pipes" 46 (46): 41-47, 2012

      6 Ratassepp, M., "Scattering of Fundamental Torsional Mode at an Axial Crack in a Pipe" 127 (127): 730-740, 2010

      7 Kim, H. W., "Health Monitoring of Axially-cracked Pipes by Using Helically Propagating Shear-horizontal Waves" 46 (46): 115-121, 2012

      8 Kim, Y. G., "Generating and Detecting Torsional Guided Waves Using Magnetostrictive Sensors of Crossed Coils" 44 (44): 145-151, 2011

      9 Kwun, H., "Detection of Axial Cracks in Tube and Pipe Using Torsional Guided Waves" 27 (27): 193-199, 2008

      10 Fletcher, S., "Detection of Axial Cracks in Pipes Using Focused Guided Waves" 31 (31): 56-64, 2012

      1 김영완, "첩릿변환을 이용한 비틀림 유도파 모드분리" 한국소음진동공학회 24 (24): 324-331, 2014

      2 김정엽, "첩릿변환을 이용한 배관 결함 특성 규명" 한국소음진동공학회 24 (24): 636-642, 2014

      3 Cheong, Y., "Ultrasonic Guided Wave Parameters for Detection of Axial Cracks in Feeder Pipes of PHWR Nuclear Power Plants" 42 (42): 883-888, 2004

      4 Demma, A., "The Reflection of Guided Waves from Notches in Pipes: a Guide for Interpreting Measurements" 37 (37): 167-180, 2004

      5 Carandente, R., "The Effect of Complex Defect Profiles on the Reflection of the Fundamental Torsion Mode in Pipes" 46 (46): 41-47, 2012

      6 Ratassepp, M., "Scattering of Fundamental Torsional Mode at an Axial Crack in a Pipe" 127 (127): 730-740, 2010

      7 Kim, H. W., "Health Monitoring of Axially-cracked Pipes by Using Helically Propagating Shear-horizontal Waves" 46 (46): 115-121, 2012

      8 Kim, Y. G., "Generating and Detecting Torsional Guided Waves Using Magnetostrictive Sensors of Crossed Coils" 44 (44): 145-151, 2011

      9 Kwun, H., "Detection of Axial Cracks in Tube and Pipe Using Torsional Guided Waves" 27 (27): 193-199, 2008

      10 Fletcher, S., "Detection of Axial Cracks in Pipes Using Focused Guided Waves" 31 (31): 56-64, 2012

      11 Lowe, M., "Defect Detection in Pipes Using Guided Waves" 36 (36): 147-154, 1998

      12 Liu, Z., "Circumferential and Longitudinal Defect Detection Using T(0,1) Mode Excited by Thickness Shear Mode Piezoelectric Elements" 44 (44): e1135-e1138, 2006

      13 Luo, W., "Circumferential Shear Horizontal Wave Axial-crack Sizing in Pipes" 15 (15): 149-171, 2005

      14 Kim, H. W., "Circumferential Phased Array of Shear-horizontal Wave Magnetostrictive Patch Transducers for Pipe Inspection" 53 (53): 423-431, 2013

      15 Satyarnarayan, L., "Circumferential Higher Order Guided Waves Modes for the Detection and Sizing of Cracks and Pinholes in Pipe Support Regions" 41 (41): 32-43, 2008

      16 Tse, P., "Characterization of Pipeline Defect in Guided-waves Based Inspection through Matching Pursuit with the Optimized Dictionary" 54 (54): 171-182, 2013

      17 Kim, H. W., "Analysis of Internal Wave Reflection within a Magnetostrictive Patch Transducer for High-frequency Guided Torsional Waves" 51 (51): 647-652, 2011

      18 Hirao, M., "An SH-wave EMAT Technique for Gas Pipeline Inspection" 32 (32): 127-132, 1999

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      2026 평가예정 재인증평가 신청대상 (재인증)
      2020-01-01 평가 등재학술지 유지 (재인증) KCI등재
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      2013-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-02-05 학회명변경 영문명 : Korean Society For Noise And Vibration Engeering (Ksnve) -> Korean Society for Noise and Vibration Engineering(KSNVE) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
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      2004-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2001-07-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      1999-01-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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