Title of article
Application of the reverberation-ray matrix to the propagation of elastic waves in a layered solid
Author/Authors
Xian-Yue Su، نويسنده , , Jia-Yong Tian، نويسنده , , Yih-Hsing Pao، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
17
From page
5447
To page
5463
Abstract
This paper extends the newly developed method of reverberation-ray matrix (J. Sound Vibrat. 230(4) (2000) 743) to
the propagation of elastic waves in a layered solid. The steady state waves generated by point source (axisymmetric
problem) or a line source (plane strain problem) are expressed by the Sommerfield-weyl integrals of wave numbers. The
waves radiated from the source are reflected or refracted at the interface of two adjacent layers, and the process of
transmission and reflection is represented by a local scattering matrix; and the process of wave transmitting from one
interface to the neighbouring one is represented by a local phase matrix. The local matrices of all layers are then stacked
to form the global scattering matrix and global phase matrix of the layered medium separately. The product of these
two matrices together with a global permutation matrix gives rise to the reverberation-ray matrix R, which represents
the multi-reflected and transmitted steady state waves within the entire medium. The transient waves are then determined
by another integration over the frequency, and the integrand of the double integral in frequency and wave
number, known as the ray-integrals, contains a power series of R. The ray-integrals so formulated are particularly
suitable for evaluating the transient waves involving a large number of generalized-rays by calculating the double integrals
numerically as illustrated by the example of a laminated plate in this paper
Keywords
elastic waves , Reverberation-ray matrix , Layered solid
Journal title
International Journal of Solids and Structures
Serial Year
2002
Journal title
International Journal of Solids and Structures
Record number
447987
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