Damage localization in aluminum plate with compact rectangular phased piezoelectric transducer array

In this work, a detection method for the damage in plate-like structure with a compact rectangular phased piezoelectric transducer array of 16 piezoelectric elements was presented. This compact array can not only detect and locate a single defect (through hole) in plate, but also identify multi-defe...

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Published inMechanical systems and signal processing Vol. 70-71; pp. 625 - 636
Main Authors Liu, Zenghua, Sun, Kunming, Song, Guorong, He, Cunfu, Wu, Bin
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2016
Subjects
Algorithms
Arrays
Compact rectangular phased transducer array
Compounded image
Continuous wavelet transform
Defect
Filtering
Image contrast
Lamb waves
Piezoelectric transducers
Plates (structural members)
Sign coherence factor
Lamb waves
Defect
Sign coherence factor
Compounded image
Compact rectangular phased transducer array
Online AccessGet full text
ISSN0888-3270
1096-1216
DOI10.1016/j.ymssp.2015.09.022

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Abstract In this work, a detection method for the damage in plate-like structure with a compact rectangular phased piezoelectric transducer array of 16 piezoelectric elements was presented. This compact array can not only detect and locate a single defect (through hole) in plate, but also identify multi-defects (through holes and surface defect simulated by an iron pillar glued to the plate). The experiments proved that the compact rectangular phased transducer array could detect the full range of plate structures and implement multiple-defect detection simultaneously. The processing algorithm proposed in this paper contains two parts: signal filtering and damage imaging. The former part was used to remove noise from signals. Continuous wavelet transform was applicable to signal filtering. Continuous wavelet transform can provide a plot of wavelet coefficients and the signal with narrow frequency band can be easily extracted from the plot. The latter part of processing algorithm was to implement damage detection and localization. In order to accurately locate defects and improve the imaging quality, two images were obtained from amplitude and phase information. One image was obtained with the Total Focusing Method (TFM) and another phase image was obtained with the Sign Coherence Factor (SCF). Furthermore, an image compounding technique for compact rectangular phased piezoelectric transducer array was proposed in this paper. With the proposed technique, the compounded image can be obtained by combining TFM image with SCF image, thus greatly improving the resolution and contrast of image. •The compact rectangular phased transducer array allows full-range damage detection.•Continuous wavelet analysis was applicable to signal filtering.•A compounding algorithm is proposed for the defect imaging.•The algorithm greatly improved the resolution and contrast of images.•The array can not only detect a single hole defect but also identify multi-type defects.
AbstractList In this work, a detection method for the damage in plate-like structure with a compact rectangular phased piezoelectric transducer array of 16 piezoelectric elements was presented. This compact array can not only detect and locate a single defect (through hole) in plate, but also identify multi-defects (through holes and surface defect simulated by an iron pillar glued to the plate). The experiments proved that the compact rectangular phased transducer array could detect the full range of plate structures and implement multiple-defect detection simultaneously. The processing algorithm proposed in this paper contains two parts: signal filtering and damage imaging. The former part was used to remove noise from signals. Continuous wavelet transform was applicable to signal filtering. Continuous wavelet transform can provide a plot of wavelet coefficients and the signal with narrow frequency band can be easily extracted from the plot. The latter part of processing algorithm was to implement damage detection and localization. In order to accurately locate defects and improve the imaging quality, two images were obtained from amplitude and phase information. One image was obtained with the Total Focusing Method (TFM) and another phase image was obtained with the Sign Coherence Factor (SCF). Furthermore, an image compounding technique for compact rectangular phased piezoelectric transducer array was proposed in this paper. With the proposed technique, the compounded image can be obtained by combining TFM image with SCF image, thus greatly improving the resolution and contrast of image. •The compact rectangular phased transducer array allows full-range damage detection.•Continuous wavelet analysis was applicable to signal filtering.•A compounding algorithm is proposed for the defect imaging.•The algorithm greatly improved the resolution and contrast of images.•The array can not only detect a single hole defect but also identify multi-type defects.
In this work, a detection method for the damage in plate-like structure with a compact rectangular phased piezoelectric transducer array of 16 piezoelectric elements was presented. This compact array can not only detect and locate a single defect (through hole) in plate, but also identify multi-defects (through holes and surface defect simulated by an iron pillar glued to the plate). The experiments proved that the compact rectangular phased transducer array could detect the full range of plate structures and implement multiple-defect detection simultaneously. The processing algorithm proposed in this paper contains two parts: signal filtering and damage imaging. The former part was used to remove noise from signals. Continuous wavelet transform was applicable to signal filtering. Continuous wavelet transform can provide a plot of wavelet coefficients and the signal with narrow frequency band can be easily extracted from the plot. The latter part of processing algorithm was to implement damage detection and localization. In order to accurately locate defects and improve the imaging quality, two images were obtained from amplitude and phase information. One image was obtained with the Total Focusing Method (TFM) and another phase image was obtained with the Sign Coherence Factor (SCF). Furthermore, an image compounding technique for compact rectangular phased piezoelectric transducer array was proposed in this paper. With the proposed technique, the compounded image can be obtained by combining TFM image with SCF image, thus greatly improving the resolution and contrast of image.
Author Song, Guorong
He, Cunfu
Liu, Zenghua
Sun, Kunming
Wu, Bin
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– sequence: 2
  givenname: Kunming
  surname: Sun
  fullname: Sun, Kunming
  organization: College of Mechanical Engineering and Applied Electronics Technology, Beijing University of Technology, Beijing 100124, China
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  surname: Song
  fullname: Song, Guorong
  organization: College of Mechanical Engineering and Applied Electronics Technology, Beijing University of Technology, Beijing 100124, China
– sequence: 4
  givenname: Cunfu
  surname: He
  fullname: He, Cunfu
  organization: College of Mechanical Engineering and Applied Electronics Technology, Beijing University of Technology, Beijing 100124, China
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  givenname: Bin
  surname: Wu
  fullname: Wu, Bin
  organization: College of Mechanical Engineering and Applied Electronics Technology, Beijing University of Technology, Beijing 100124, China
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Keywords Lamb waves
Defect
Sign coherence factor
Compounded image
Compact rectangular phased transducer array
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SSID ssj0009406
Score 2.4456782
Snippet In this work, a detection method for the damage in plate-like structure with a compact rectangular phased piezoelectric transducer array of 16 piezoelectric...
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SubjectTerms Algorithms
Arrays
Compact rectangular phased transducer array
Compounded image
Continuous wavelet transform
Defect
Filtering
Image contrast
Lamb waves
Piezoelectric transducers
Plates (structural members)
Sign coherence factor
Title Damage localization in aluminum plate with compact rectangular phased piezoelectric transducer array
URI https://dx.doi.org/10.1016/j.ymssp.2015.09.022
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