Propagation of elastic waves in composites with random set of spherical inclusions (effective medium approach)
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Publication:2387700
DOI10.1016/j.wavemoti.2003.12.013zbMath1163.74377OpenAlexW2012524215WikidataQ59157573 ScholiaQ59157573MaRDI QIDQ2387700
S. K. Kanaun, Valery M. Levin, Federico J. Sabina
Publication date: 5 September 2005
Published in: Wave Motion (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.wavemoti.2003.12.013
dispersionphase velocityelastic compositeshomogenization problemmean wave fieldattenuation factorseffective medium method
Related Items (12)
Dynamic effective properties of matrix composite materials with high volume concentrations of particles ⋮ Dispersion and attenuation in thermoelastic multisize particulate composites ⋮ Dispersive computational continua ⋮ Higher order asymptotic homogenization and wave propagation in periodic composite materials ⋮ Longitudinal and transverse coherent waves in media containing randomly distributed spheres ⋮ Effective wavenumbers and reflection coefficients for an elastic medium containing random configurations of cylindrical scatterers ⋮ Preface ⋮ Propagation of axial shear waves in elastic composites reinforced with random or regular sets of unidirected fibers ⋮ Acoustical and optical branches of wave propagation in random particulate composites ⋮ Multiple scattering of elastic waves in metal-matrix composite materials with high volume concentration of particles ⋮ Propagation of longitudinal elastic waves in composites with a random set of spherical inclusions (effective field approach) ⋮ Multi‐parametric analysis of strongly inhomogeneous periodic waveguideswith internal cutoff frequencies
Cites Work
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- Spherically layered inclusions in a homogeneous elastic medium
- A simple self-consistent analysis of wave propagation in particulate composites
- Phase velocity and attenuation of plane elastic waves in a particle- reinforced composite medium
- Solutions for effective shear properties in three phase sphere and cylinder models
- Self-consistent analysis of waves in a matrix-inclusion composite. I: Aligned spheroidal inclusions
- Effective medium method in the problem of axial elastic shear wave propagation through fiber composites.
- Long-wavelength propagation in composite elastic media II. Ellipsoidal inclusions
- Interface Effects in Elastic Wave Scattering
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