High-frequency guided ultrasonic waves for hidden defect detection in multi-layered aircraft structures
Open access
Date
2014-09Type
- Journal Article
ETH Bibliography
no
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Abstract
Aerospace structures often contain multi-layered metallic components where hidden defects such as fatigue cracks and localized disbonds can develop, necessitating non-destructive testing. Employing standard wedge transducers, high frequency guided ultrasonic waves that penetrate through the complete thickness were generated in a model structure consisting of two adhesively bonded aluminium plates. Interference occurs between the wave modes during propagation along the structure, resulting in a frequency dependent variation of the energy through the thickness with distance. The wave propagation along the specimen was measured experimentally using a laser interferometer. Good agreement with theoretical predictions and two-dimensional finite element simulations was found. Significant propagation distance with a strong, non-dispersive main wave pulse was achieved. The interaction of the high frequency guided ultrasonic waves with small notches in the aluminium layer facing the sealant and on the bottom surface of the multilayer structure was investigated. Standard pulse-echo measurements were conducted to verify the detection sensitivity and the influence of the stand-off distance predicted from the finite element simulations. The results demonstrated the potential of high frequency guided waves for hidden defect detection at critical and difficult to access locations in aerospace structures from a stand-off distance. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000120789Publication status
publishedExternal links
Journal / series
UltrasonicsVolume
Pages / Article No.
Publisher
ElsevierSubject
Multilayer; Guided ultrasonic waves; Hidden defectOrganisational unit
03685 - Hora, Pavel (emeritus) / Hora, Pavel (emeritus)
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