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Acoustic scattering by a metallic tube with a concentric solid polymer cylinder coupled by a thin water layer. Influence of the thickness of the water layer on the two Scholte–Stoneley waves
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10.1121/1.2065807
/content/asa/journal/jasa/118/5/10.1121/1.2065807
http://aip.metastore.ingenta.com/content/asa/journal/jasa/118/5/10.1121/1.2065807

Figures

Image of FIG. 1.
FIG. 1.

(a) Geometry of the problem. (b) Experimental bistatic setup.

Image of FIG. 2.
FIG. 2.

Theoretical plane of modal identification of an aluminum tube containing a Lucite solid cylinder coupled by a water layer with a thickness (gray level representation). Dashed lines concern the two constituents (: bending wave A of the tube filled by water, : Scholte–Stoneley wave of the Lucite cylinder).

Image of FIG. 3.
FIG. 3.

Theoretical plane of modal identification of an aluminum tube containing a Lucite solid cylinder coupled by a water layer with a thickness (gray level representation). Dashed lines concern the two constituents (: bending wave A of the tube filled by water, : Scholte–Stoneley wave of the Lucite cylinder).

Image of FIG. 4.
FIG. 4.

Theoretical dispersion curves of phase velocity of the A wave; solid line: curve concerning the aluminum filled by water, and ●: modes concerning the aluminum tube containing a Lucite solide cylinder coupled by a water layer with a thickness (●: mode that can be experimentally observed).

Image of FIG. 5.
FIG. 5.

Theoretical dispersion curves of phase velocity of the Scholte–Stoneley wave; solid line: curve concerning the solid Lucite cylinder, and ●: modes concerning the aluminum tube containing a Lucite solide cylinder coupled by a water layer with a thickness (●: mode that can be experimentally observed).

Image of FIG. 6.
FIG. 6.

Theoretical dispersion curves of phase velocity; and ●: modes concerning the aluminum tube containing a Lucite solid cylinder coupled by a water layer with a thickness (●: mode that can be experimentally observed), solid line: curve concerning the wave A of the aluminum tube filled by water; dashed line (——): curve concerning the Scholte–Stoneley wave of the Lucite cylinder (velocity calculated by taking the outer radius of the tube).

Image of FIG. 7.
FIG. 7.

Experimental plane of modal identification of an aluminum tube containing a Lucite solid cylinder coupled by a water layer with a thickness (gray level representation). Dashed lines concern the two contituents (A wave relating to the tube filled by water; Scholte–Stoneley wave relating to the solid Lucite cylinder: ).

Image of FIG. 8.
FIG. 8.

Experimental plane of modal identification of an aluminum tube containing a Lucite solid cylinder coupled by a water layer with a thickness (gray level representation).

Tables

Generic image for table
TABLE I.

Aluminum tube containing a Lucite cylinder coupled by a water layer thickness . Theoretical and experimental results relating to the Scholte–Stoneley wave of the Lucite cylinder.

Generic image for table
TABLE II.

Aluminum tube containing a Lucite cylinder coupled by a water layer thickness . Theoretical and experimental results relating to the A wave of the tube.

Generic image for table
TABLE III.

Aluminum tube containing a Lucite cylinder coupled by a water layer thickness . Theoretical and experimental results.

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/content/asa/journal/jasa/118/5/10.1121/1.2065807
2005-11-01
2014-04-19
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752b84549af89a08dbdd7fdb8b9568b5 journal.articlezxybnytfddd
Scitation: Acoustic scattering by a metallic tube with a concentric solid polymer cylinder coupled by a thin water layer. Influence of the thickness of the water layer on the two Scholte–Stoneley waves
http://aip.metastore.ingenta.com/content/asa/journal/jasa/118/5/10.1121/1.2065807
10.1121/1.2065807
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