Imaging defects in laminate composite plates using focused shear waves generated by air-coupled transducer

Imaging defects in laminate composite plates using focused shear waves generated by air-coupled transducer

This research develops a nondestructive evaluation (NDE) technique to obtain images of two types of defects, delamination and debonding, in a thick laminate composite plate as a laboratory material system for wind turbine blades. The technique uses focused shear waves which are generated and detecte...

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Veröffentlicht in:Composite structures 2016-09, Vol.152, p.891-899
Hauptverfasser: Kim, J.-Y., In, C.-W., Sun, K.H., Song, J.S., Lee, J.-H.
Format: Artikel
Sprache:eng
Schlagworte:
Air-coupled technique
Composite structures
Debonding
Defects
Delaminating
Delamination
Imaging
Laminate composites
Noncontact inspection
Nondestructive evaluation
Sound waves
Transducers
Wind turbine blades
Wind turbines
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container_title Composite structures
container_volume 152
creator Kim, J.-Y.
In, C.-W.
Sun, K.H.
Song, J.S.
Lee, J.-H.
description This research develops a nondestructive evaluation (NDE) technique to obtain images of two types of defects, delamination and debonding, in a thick laminate composite plate as a laboratory material system for wind turbine blades. The technique uses focused shear waves which are generated and detected by a set of noncontact, air-coupled ultrasonic transducers. The noncontact nature of the air-coupled method facilitates rapid scanning/inspection of large composite structures. Ray-tracing simulations are performed which visualize the focusing behavior of the focused shear waves in the specimen, from which the experimental parameters are determined. The proposed focused shear wave technique is compared with a Lamb-wave based technique, showing that the present technique is more appropriate for direct imaging of these defects. The obtained images of delamination and debonding defects agree well with the estimated defect locations and dimensions. This demonstrates the feasibility of further developing the present technique for specific field applications in wind turbine blades.
doi_str_mv 10.1016/j.compstruct.2016.06.037
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subjects Air-coupled technique
Composite structures
Debonding
Defects
Delaminating
Delamination
Imaging
Laminate composites
Noncontact inspection
Nondestructive evaluation
Sound waves
Transducers
Wind turbine blades
Wind turbines
title Imaging defects in laminate composite plates using focused shear waves generated by air-coupled transducer
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