Research of Porous Solid - Fluid Interface Scholte Wave

Zu Feng Xie; Qing Bang Han; Chang Ping Zhu

doi:10.4028/www.scientific.net/AMR.538-541.2175

Paper Titles

Application of Stress GM (1,1) Residual Error Model with New Equal Dimension Information on Bridge Construction Control
p.2153

Monocyclic Aromatic Compounds Detection with High Field Asymmetry Waveform Ion Mobility Spectrometry
p.2159

Design Method about Spherical Diaphragm Sealing of Tube Channel in High Pressure Heat Exchanger
p.2164

Hawking Radiation of Charged Particles as Tunneling from Kim Black Hole
p.2169

Research of Porous Solid - Fluid Interface Scholte Wave
p.2175

Fast Detection of Nitrite with a Test Paper Tape
p.2181

Effects of Normal Pressure on the Clogging Behavior of Geotextile and Gap-Graded Soil Filtration Systems
p.2184

Study on the Effect Factors of the Removal Rate of Permanganate Index in the Filtration Process
p.2190

The Influence of Ethanol Extraction in the High Temperature Steaming Induced Discoloration Process of Locust (Robinia pseudoacacia) Wood
p.2194

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 538-541Research of Porous Solid - Fluid Interface Scholte...

Research of Porous Solid - Fluid Interface Scholte Wave

Abstract:

This paper establishes the theoretical model of Scholte wave velocity on the fluid-porous medium interface based on the Biot theory of porous media. We firstly simulates and analysis sound propagation characteristics of fluid-saturated porous, and then we deduces the secular equation of fluid-solid interface wave on semi-infinite half-space applying potential function method. This study will provide a theoretical guidance of detecting the interface wave between fluid and porous media.