Acoustic wave propagation in anisotropic media with one-dimensional inhomogeneity is discussed. Using a Green's function approach, the wave equation with inhomogeneous variation of elastic property and mass density is transformed into an integral equation, which is then solved numerically. The method is applied to find the dispersion relation of surface acoustic waves for a medium with continuously or discontinuously varying elastic property and mass density profiles.status: publishe
The propagation and scattering of elastic waves provides a valuable tool for the QNDE of composite m...
Guided by similarities between electronic and classical waves, a numerical code based on a formalism...
Karal and Keller [1] developed the geometrical acoustics for wave propagation in a heterogeneous iso...
Composite materials have gained considerable industrial importance, being widely applied e.g. in aer...
Technological developments in composite materials, non-destructive testing, and signal processing as...
Even though the propagation of elastic/acoustic waves in inhomogeneous and layered media has been an...
A generalized Green's function technique for wave propagation of transient fields in one-dimensional...
Abstract—This paper presents a numerical model, based on transfer matrix method, for modeling the pr...
A theoretical description is given for the propagation of surface acoustic wave pulses in anisotropi...
Journal articleFunctionally Graded Materials are inhomogeneous elastic bodies whose properties vary ...
Using the path-integral technique, an analytical expression of the three-dimensional Green's functio...
A new technique has been developed for studying surface acoustic wave propagation. The technique, w...
International audienceA wave propagation model in macroscopically inhomogeneous porous media is deri...
Functionally graded materials (FGMs) have great potential as energy absorbing devices, electrical tr...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)The present work aims at studying Bleus...
The propagation and scattering of elastic waves provides a valuable tool for the QNDE of composite m...
Guided by similarities between electronic and classical waves, a numerical code based on a formalism...
Karal and Keller [1] developed the geometrical acoustics for wave propagation in a heterogeneous iso...
Composite materials have gained considerable industrial importance, being widely applied e.g. in aer...
Technological developments in composite materials, non-destructive testing, and signal processing as...
Even though the propagation of elastic/acoustic waves in inhomogeneous and layered media has been an...
A generalized Green's function technique for wave propagation of transient fields in one-dimensional...
Abstract—This paper presents a numerical model, based on transfer matrix method, for modeling the pr...
A theoretical description is given for the propagation of surface acoustic wave pulses in anisotropi...
Journal articleFunctionally Graded Materials are inhomogeneous elastic bodies whose properties vary ...
Using the path-integral technique, an analytical expression of the three-dimensional Green's functio...
A new technique has been developed for studying surface acoustic wave propagation. The technique, w...
International audienceA wave propagation model in macroscopically inhomogeneous porous media is deri...
Functionally graded materials (FGMs) have great potential as energy absorbing devices, electrical tr...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)The present work aims at studying Bleus...
The propagation and scattering of elastic waves provides a valuable tool for the QNDE of composite m...
Guided by similarities between electronic and classical waves, a numerical code based on a formalism...
Karal and Keller [1] developed the geometrical acoustics for wave propagation in a heterogeneous iso...