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Autor: =Berlyand, L.
2 registros cumplieron la condición especificada en la base de información BIBCYT. ()
Registro 1 de 2, Base de información BIBCYT
Publicación seriada
Referencias AnalíticasReferencias Analíticas
Autor: Clouet, J. F. ; Berlyand, L. ; Avellaneda., M.
Título: Frequency-Dependent Acoustics of Composites with Interfaces
Páginas/Colación: pp. 2143-2181
Url: Ir a http://siamdl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=SMJMAP000060000006002143000001&idtype=cvips&gifs=Yeshttp://siamdl.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=SMJMAP000060000006002143000001&idtype=cvips&gifs=Yes
SIAM Journal on Applied Mathematics Vol. 60, no. 6 May/June 2000
Información de existenciaInformación de existencia

Palabras Claves: Palabras: ACOUSTIC WAVES ACOUSTIC WAVES, Palabras: BLOCH-FLOQUET EXPANSIONS BLOCH-FLOQUET EXPANSIONS, Palabras: DIRICHLET-NEUMANN OPERATOR DIRICHLET-NEUMANN OPERATOR, Palabras: FREQUENCY-DEPENDENT IMPEDANCE FREQUENCY-DEPENDENT IMPEDANCE, Palabras: HOMOGENIZATION HOMOGENIZATION, Palabras: REFLECTION COEFFICIENT REFLECTION COEFFICIENT, Palabras: TRANSDUCER TRANSDUCER

Resumen
RESUMEN

RESUMEN

 

We study the scattering of an incident wave by a composite medium with periodic microstructure in a slab geometry. We compute the expansion on the wave field in powers of the parameter $\epsilon=d \lambda$, where d is the characteristic scale of the microstructure and $\lambda$ is the wavelength. For $\eps=0$ this corresponds to homogenization theory. Here, we focus on the correction terms for $\eps>0$ and compute the frequency-dependent impedance and the energy reflection coefficient as functions of $\epsilon$, the material properties, and the volume fraction. This is used to describe the shape and amplitude of a transmitted or reflected pulse signal.

 

Registro 2 de 2, Base de información BIBCYT
Publicación seriada
Referencias AnalíticasReferencias Analíticas
Autor: Berlyand, L. ; Khruslov, E.
Título: Homogenized Non-Newtonian Viscoelastic Rheology of a Suspension of Interacting Particles in a Viscous Newtonian Fluid
Páginas/Colación: pp. 1002-1034
Url: Ir a http://epubs.siam.org/sam-bin/dbq/article/40391http://epubs.siam.org/sam-bin/dbq/article/40391
SIAM Journal on Applied Mathematics Vol. 64, no. 3 March/April 2004
Información de existenciaInformación de existencia

Resumen
Our study is motivated by an attempt to develop a rigorous mathematical model of a suspension highly filled with a large number of small solid particles, which interact due to surface forces. We use asymptotic analysis in the small parameter $\epsilon$ and consider irregular (nonperiodic) geometries for which the sizes of particles and the distances between them are of order $\epsilon$. We present conditions under which the homogenization of a Newtonian fluid with interacting particles leads to a single medium which is an anisotropic, non-Newtonian viscoelastic fluid with memory described by a relaxation term. We derive formulas for the calculation of the effective viscosity tensor and the relaxation integral kernel. For periodic arrays of particles we show how this tensor can be explicitly computed and compute the distribution of the relaxation times, which is the main quantity of interest in the rheological studies. We also show how the particles' shapes affect this distribution. Key words. homogenization, non-Newtonian fluids, suspensions, relaxation time, viscoelasticity, interaction, surface forces

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

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