The effect of boundaries on wave propagation in a liquid-filled porous solid: IV. Surface waves in a half-space

Artigo Revisado por pares

The effect of boundaries on wave propagation in a liquid-filled porous solid: IV. Surface waves in a half-space

1962; Seismological Society of America; Volume: 52; Issue: 3 Linguagem: Inglês

10.1785/bssa0520030627

ISSN

1943-3573

Autores

H. Deresiewicz,

Tópico(s)

Seismic Waves and Analysis

Resumo

abstract Dispersion and dissipation of Rayleigh-type surface waves in a porous, elastic half-space filled with a viscous liquid are studied within the framework of Biot's field equations. The algebraic secular equation turns out to be of the seventh degree, its (complex) coefficients being functions of a dimensionless frequency parameter. It is shown that for small and for large values of this parameter the wave is essentially non-dissipative. A numerical analysis of the secular equation pertaining to a kerosene-saturated sandstone reveals the existence of several extremal values of the phase velocity, a skewed bell-shaped variation of the dissipation per cycle, and a high-frequency cutoff for the surface wave for certain values of the dynamical coefficients.

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The effect of boundaries on wave propagation in a liquid-filled porous solid: IV. Surface waves in a half-space