6533b7dcfe1ef96bd1272009
RESEARCH PRODUCT
Noncontact Air-Coupled Guided Wave Ultrasonics for Detection of Thinning Defects in Aluminum Plates
F. Lanza Di ScaleaD. Tuzzeosubject
EngineeringGuided wave testingThinningbusiness.industryMechanical Engineeringchemistry.chemical_elementCapacitive transducerCondensed Matter PhysicsOpticschemistryAluminiumMechanics of MaterialsNondestructive testingGroup velocityUltrasonic sensorGeneral Materials Sciencesense organsAir coupledbusinessdescription
Ultrasonic guided waves are gaining increasing attention for the inspection of platelike and rodlike structures. At the same time, inspection methods that do not require contact with the test piece are being developed for advanced applications. This paper capitalizes on recent advances in the areas of guided wave ultrasonics and noncontact ultrasonics to demonstrate a superior method for the nondestructive detection of thinning defects simulating hidden corrosion in thin aluminum plates. The proposed approach uses micromachined gas (air)-coupled capacitive transducers for the noncontact generation and detection of guided plate waves. Interesting features in the dispersive behavior of selected guided modes are used for the detection of plate thinning. It is shown that mode cutoff measurements provide a qualitative detection of thinning defects, while frequency shift measurements allow quantification of thinning depth. Measurement of the mode group velocity can be also used to quantify thinning depth. Similarly, thinning length can be determined by mode time-of-flight measurements.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2001-06-01 | Research in Nondestructive Evaluation |