Nonlinear Response of an Elastic Cylindrical Shell to a Transient Acoustic Wave
Keyword(s):
Governing equations are developed for the nonlinear response of an infinite, elastic, circular cylindrical shell submerged in an infinite fluid medium and excited by a transverse, transient acoustic wave. These equations derive from circumferential Fourier-series decomposition of the field quantities appearing in appropriate energy functionals, and from application of the “residual potential formulation” for rigorous treatment of the fluid-structure interaction. Extensive numerical results are presented that provide understanding of the phenomenology involved.
Matching of asymptotic models in scattering of a plane acoustic wave by an elastic cylindrical shell
2003 ◽
Vol 264
(3)
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pp. 639-655
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Keyword(s):
1972 ◽
Vol 51
(5B)
◽
pp. 1640-1651
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2016 ◽
Vol 472
(2189)
◽
pp. 20150753
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1971 ◽
Vol 49
(3B)
◽
pp. 936-936
Keyword(s):
Keyword(s):