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Cortical Bone Assessment Using Ultrasonic Guided Waves: A Reproducibility Study in a Healthy Population
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A Novel Baseline-Free Method for Damage Localization Using Guided Waves Based on Hyperbola Imaging Algorithm.

Jichao Xu1, Wujun Zhu1, Xunlin Qiu1

  • 1Key Laboratory of Safety Science of Pressurized System of MOE, School of Mechanical and Power Engineering, East China University of Science and Technology, Shanghai 200237, China.

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Summary
This summary is machine-generated.

This study introduces a new baseline-free method for damage localization using ultrasonic Lamb waves. The technique effectively identifies and locates structural damage without needing prior reference signals.

Keywords:
Lamb wavesbaseline-freecross-correlationdamage localizationhyperbola

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Area of Science:

  • Materials Science
  • Mechanical Engineering
  • Non-Destructive Testing

Background:

  • Structural Health Monitoring (SHM) typically relies on reference signals from intact structures.
  • Existing Lamb wave imaging methods often require baseline data, limiting their applicability.
  • Damage detection and localization are critical for ensuring structural integrity.

Purpose of the Study:

  • To develop and validate a novel baseline-free method for damage localization using ultrasonic Lamb waves.
  • To implement a hyperbolic algorithm with a specialized transducer array for damage imaging.
  • To assess the method's effectiveness in identifying through-thickness holes in plate structures.

Main Methods:

  • A novel baseline-free hyperbolic algorithm was employed for damage localization.
  • A symmetrical transducer array was designed to eliminate direct waves and utilize damage-scattered waves.
  • Time-of-flight differences were calculated using cross-correlation of received signals.
  • Numerical simulations and experimental measurements were conducted on an aluminum plate.

Main Results:

  • The proposed method successfully localized damage (through-thickness hole) in an aluminum plate.
  • Both internal and external damages relative to the array were detectable.
  • Positioning accuracy was influenced by array size, with smaller arrays showing maximum error.
  • The baseline-free approach demonstrated effective damage identification without prior structural data.

Conclusions:

  • The developed hyperbolic algorithm offers a viable baseline-free approach for Lamb wave-based damage localization.
  • The symmetrical array design effectively utilizes scattered waves for damage imaging.
  • The method shows promise for real-world structural health monitoring applications where baseline data is unavailable.