A boundary element model for acoustic-elastic interaction with applications in ultrasonic NDE

P. P. Goswami; T. J. Rudolphi; F. J. Rizzo; D. J. Shippy

doi:10.1007/bf00566387

journal article Sep 01, 1990

A boundary element model for acoustic-elastic interaction with applications in ultrasonic NDE

P. P. Goswami T. J. Rudolphi F. J. Rizzo D. J. Shippy

Journal of Nondestructive Evaluation Vol. 9 No. 2-3 pp. 101-112 · Springer Science and Business Media LLC

View at Publisher Save 10.1007/bf00566387

Topics

No keywords indexed for this article. Browse by subject →

References

23

[1]

P. Goswami, F. J. Rizzo, and D. J. Shippy, in Acoustic scattering by elastic solids using the boundary element method, inReview of Progress in Quantitative NDE, D. O. Thompson and D. E. Chimenti, eds. (Plenum Press, New York, 1988), Vol. 7A, pp. 95?102.

[2]

P. J. Schafbuch, R. B. Thompson, F. J. Rizzo, and T. J. Rudolphi, in Elastic wave scattering by arbitrarily shaped voids, inReview of Progress in Quantitative NDE, D. O. Thompson and D. E. Chimenti, eds. (Plenum Press, New York, 1989), Vol. 8A, pp. 15?22.

[3]

N. Bleistein,Mathematical Methods for Wave Phenomena (Academic Press, Orlando, Florida, 1984).

[4]

A. F. Seybert, B. Soenarko, F. J. Rizzo, and D. J. Shippy, An advanced computational method for radiation and scattering of acoustic waves in three dimensions,J. Acoust. Soc. Am. 77(2362?368 (1985). 10.1121/1.391908

[5]

F. J. Rizzo, D. J. Shippy, and M. Rezayat, Boundary Integral Equation Analysis for a Class of Earth-Structure Interaction Problems, NSF Technical Report, Project No. CEE-8013461 (1985).

[6]

F. J. Rizzo, D. J. Shippy, and M. Rezayat, A boundary integral equation method for radiation and scattering of elastic waves in three dimensions,Int. J. Num. Meth. Eng. 22115?129 (1985). 10.1002/nme.1620210110

[7]

M. Rezayat, D. J. Shippy, and F. J. Rizzo, On time-harmonic elastic wave analysis by the boundary element method for moderate to higher frequency,Comp. Meth. App. Mech. Eng. 55349?367 (1986). 10.1016/0045-7825(86)90060-5

[8]

W. H. Lin and A. C. Raptis, Acoustic scattering by elastic solid cylinders and spheres in viscous fluids,J. Acoust. Soc. Am. 73736?748 (1983). 10.1121/1.389039

[9]

V. K. Varadan, V. V. Varadan, J. H. Su, and T. A. K. Pillai, Comparison of sound scattering by rigid and elastic obstacles in water,J. Acoust. Soc. Am. 71(61377?1383 (1982). 10.1121/1.387858

[10]

S. K. Numrich, V. V. Varadan, and V. K. Varadan, Scattering of acoustic waves by a finite elastic cylinder immersed in water,J. Acoust. Soc. Am. 70(51407?1410 (1981). 10.1121/1.387131

[11]

G. C. Everstine, F. M. Henderson, E. A. Schroeder, and R. R. Lipman, A General Low Frequency Acoustic Radiation Capability for NASTRAN,Fourteenth NASTRAN Users' Colloquium, NASA CP-2419, NASA, Washington, D.C., May 1986, pp. 293?310.

[12]

G. C. Everstine, F. M. Henderson, and L. S. Schuetz, Coupled NASTRAN/Boundary Element Formulation for Acoustic Scattering,Fifteenth NASTRAN Users' Colloquium Proceedings, NASA CP-2481, NASA, Washington, D.C., May 1987, pp. 250?265.

[13]

P. J. Schafbuch, R. B. Thompson, and F. J. Rizzo, Application of boundary element method to elastic wave scattering by irregular defects,J. of Nondestr. Eval., To appear. 10.1007/bf00566388

[14]

W. Tobocman, Comparison of the T-matrix and Helmholtz integral equation methods for wave scattering calculations,J. Acoust. Soc. Am. 72(2369?374 (1985). 10.1121/1.391909

[15]

R. E. Kleinman and G. F. Roach, Boundary integral equations for the three-dimensional Helmholtz equation,SIAM Rev. 16(2):(1974). 10.1137/1016029

[16]

P. A. Martin, Identification of irregular frequencies in simple direct integral equation methods for scattering by homogeneous inclusions,Wave Motion. To appear. 10.1016/0165-2125(91)90024-i

[17]

H. A. Schenck, Improved integral formulation for acoustic radiation problems,J. Acoust. Soc. Am. 44(141?58 (1968). 10.1121/1.1911085

[18]

P. A. Martin, Identification Of Irregular Frequencies in Simple Direct Integral Equation Methods for the Fluid-Solid Interaction Problem,Proceedings of the Workshop on Integral and Field Equation Methods in Fluid-Structure Interactions, University Of Delaware, Newark, Delaware, Sept. 12?15, 1989.

[19]

D. S. Jones, Low frequency scattering by a body in lubricated contact,Quart. J. Mech. Appl. Math. 36(1111?137 (1983). 10.1093/qjmam/36.1.111

[20]

A. C. Eringen and E. S. Suhubi,Elastodynamics, (Academic Press, New York, 1974?75), Vol. II, pp. 804?815.

[21]

R. E. Beissner, Boundary element model of eddy current flaw detection in three dimensions,J. Appl. Phys. 60(1352?356 (1986). 10.1063/1.337652

[22]

A. H. Kahn, Boundary integral equation methods for two dimensional models of crack-field interactions,J. Nondestr. Eval. 7(1/23?14 (1988). 10.1007/bf00565772

[23]

B. P. Newberry and R. B. Thompson, A paraxial theory for the propagation of ultrasonic beams in anisotropic solids,J. Acoust. Soc. Am. 85(62290?2300 (1989). 10.1121/1.397775

Metrics

27

Citations

23

References

Details

Published: Sep 01, 1990
Vol/Issue: 9(2-3)
Pages: 101-112
License: View

Authors

Cite This Article

P. P. Goswami, T. J. Rudolphi, F. J. Rizzo, et al. (1990). A boundary element model for acoustic-elastic interaction with applications in ultrasonic NDE. Journal of Nondestructive Evaluation, 9(2-3), 101-112. https://doi.org/10.1007/bf00566387

A boundary element model for acoustic-elastic interaction with applications in ultrasonic NDE

You May Also Like