P4G-7 Eigenvalue Imaging Method For Subsurface Defects via A0-Mode Lamb-Waves

Author

Teramoto, Kenbu

Author_Institution

Saga Univ., Saga

fYear

2007

fDate

28-31 Oct. 2007

Firstpage

2064

Lastpage

2067

Abstract

Ultrasonic guided waves, because of their long range inspection ability, are now being used more and more as a very efficient and economical NDE method for large area inspection. This paper proposes an eigenvalue imaging method which has an ability to classify the Lamb wave fronts scattered by sub-surface defects and to localize the defects. The eigenvalues are derived from the covariance matrix defined over the 4-dimensional vector space which is spanned by following components: (l)a vertical (z- directional) displacement, (2)its vertical particle velocity, (3)the orthogonal pair of out of strains. Therefore, the 3rd eigenvalue detects the existence of the defects and the 4th one shows location of the defects beneath the surface of the plate.

Keywords

covariance matrices; eigenvalues and eigenfunctions; flaw detection; surface acoustic waves; ultrasonic materials testing; ultrasonic propagation; ultrasonic scattering; 4D vector space; A0 mode Lamb waves; Lamb wave front classification; Lamb wave front scattering; NDE method; covariance matrix; eigenvalue imaging method; large area inspection; subsurface defect localization; subsurface defects; ultrasonic guided waves; Acoustic scattering; Capacitive sensors; Covariance matrix; Eigenvalues and eigenfunctions; Inspection; Mechanical engineering; Partial differential equations; Particle scattering; Rayleigh scattering; Surface waves;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultrasonics Symposium, 2007. IEEE

Conference_Location

New York, NY

ISSN

1051-0117

Print_ISBN

978-1-4244-1384-3

Electronic_ISBN

1051-0117

Type

conf

DOI

10.1109/ULTSYM.2007.519

Filename

4410092