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Damage detection with the fundamental mode of edge waves

James M. Hughes, Munawwar Mohabuth, Aditya Khanna, James Vidler, Andrei Kotousov, Ching‐Tai Ng

2020Structural Health Monitoring21 citationsDOI

Abstract

Detection of mechanical damage using Lamb or Rayleigh waves is limited to relatively simple geometries, yet real structures often incorporate features such as free or clamped edges, welds, rivets, ribs and holes. All these features are potential sources of wave reflections and scattering, which make the application of these types of guided waves for damage detection difficult. However, these features can themselves generate so-called ‘feature-guided’ waves. This article details the first application of the fundamental mode of transient edge waves for detection of mechanical damage. The fundamental edge wave mode (ES 0 ) – a natural analogue to Rayleigh waves – is weakly dispersive and may decay with propagation distance. The phase and group velocities of the ES 0 wave mode are close to the fundamental shear horizontal (SH 0 ) and symmetric Lamb (S 0 ) wave modes, at low and high frequencies, respectively. It is therefore quite challenging to excite a single ES 0 mode and avoid wave coupling. However, it was found experimentally that at medium range frequencies the ES 0 mode can be decoupled from SH 0 and S 0 modes, and its decay is small, allowing for distant detection of defects and damage along free edges of slender structural components. This article provides a brief theory of edge waves, excitation methodology and successful examples of distant detection of crack-like and corrosion damage in I-beam sections, which are widely applied in engineering and construction.

Topics & Concepts

Rayleigh waveLamb wavesAcousticsRivetMechanical wavePhysicsOpticsRayleigh scatteringGuided wave testingEnhanced Data Rates for GSM EvolutionSurface waveWave propagationNormal modeMode (computer interface)Longitudinal waveStructural engineeringVibrationEngineeringComputer scienceTelecommunicationsOperating systemUltrasonics and Acoustic Wave PropagationGeophysical Methods and ApplicationsNon-Destructive Testing Techniques
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