Add to ORKGAn experiment was conducted to measure the sound speed in a water-saturated granular sediment within a range of frequencies where dispersion is predicted by a number of existing models. Between 2-4 kHz, the sound speed was inferred from measurements of the resonance frequencies of a right-circular-cylindrical container filled with the material. From 20-300 kHz, the sound speed was obtained directly from time-of-flight measurements within the same sediment. Dispersion consistent with the Williams Effective Density Fluid Model was observed
This research investigates a new technique to measure the sound speed in water-saturated sediment a...
The sound propagation properties of two air-filled granular materials: large sifted pea gravel and 1...
Compression wave sound speed and attenuation measurements are made in the laboratory over frequencie...
An experiment was conducted to measure the sound speed in a water-saturated granular sediment within...
A laboratory experiment was conducted to measure the speed of sound in an artificial water-saturated...
textThe propagation of acoustic waves through water-saturated granular sediments has been widely stu...
The low-frequency sound speed in a fluid-like kaolinite sediment containing air bubbles was measured...
One of the difficulties in validating sediment models has been the lack of reliable low frequency di...
The pioneering work of Mike Batzle and his colleagues has provided a fundamental understanding of me...
The theories of sound propagation in sediments are more or less extensions of those applicable to at...
International audienceAcoustic properties of water-saturated sandy sediments in a frequency range go...
One of the difficulties encountered in verifying sound propagation models for gas bearing sediments ...
The scientific objectives are to: 1) quantify the relative importance of scattering and frictional l...
International audienceTwo distinct types of small-amplitude sound propagation have been identified i...
We have measured the velocity and attenuation of sound in a pack of water saturated glass spheres. T...
This research investigates a new technique to measure the sound speed in water-saturated sediment a...
The sound propagation properties of two air-filled granular materials: large sifted pea gravel and 1...
Compression wave sound speed and attenuation measurements are made in the laboratory over frequencie...
An experiment was conducted to measure the sound speed in a water-saturated granular sediment within...
A laboratory experiment was conducted to measure the speed of sound in an artificial water-saturated...
textThe propagation of acoustic waves through water-saturated granular sediments has been widely stu...
The low-frequency sound speed in a fluid-like kaolinite sediment containing air bubbles was measured...
One of the difficulties in validating sediment models has been the lack of reliable low frequency di...
The pioneering work of Mike Batzle and his colleagues has provided a fundamental understanding of me...
The theories of sound propagation in sediments are more or less extensions of those applicable to at...
International audienceAcoustic properties of water-saturated sandy sediments in a frequency range go...
One of the difficulties encountered in verifying sound propagation models for gas bearing sediments ...
The scientific objectives are to: 1) quantify the relative importance of scattering and frictional l...
International audienceTwo distinct types of small-amplitude sound propagation have been identified i...
We have measured the velocity and attenuation of sound in a pack of water saturated glass spheres. T...
This research investigates a new technique to measure the sound speed in water-saturated sediment a...
The sound propagation properties of two air-filled granular materials: large sifted pea gravel and 1...
Compression wave sound speed and attenuation measurements are made in the laboratory over frequencie...