High-Frequency Dependence of Acoustic Properties of Three Typical Sediments in the South China Sea

The acoustic characteristics of three fine-grained sediments (silty sand, silt, silty clay) in the South China Sea (SCS) were measured and analyzed at high frequency range of 27-247 kHz. The measurement results show that the sound speed dispersion is a positive linear relation at the measured frequency range, and the attenuation follows nonlinear frequency dependence, alpha = kf(n), where n ranges from 0.59 to 0.85 for the three different sediments in the SCS. The frequency dependence of sound speed and attenuation were compared with the published literature. It was found that for silty clay, clayey silt, silt, and silty sand, the dispersion characteristics of these four sediments are basically consistent; in general, the dispersion of coarse particles is significant, and that of fine particles is weak, and permeability is the key parameter that determines the inflection point of high frequency to low frequency. By modeling these sediments with the Biot-Stoll model, it was found that the Biot-Stoll model can better predict the frequency-dependent characteristics of sound attenuation in a high-frequency band under the matching constraints of sound speed dispersion characteristics, indicating that the Biot-Stoll model has good applicability to different types of sediments in a high-frequency band.

Automated summary

The acoustic characteristics of three fine-grained sediments in the South China Sea were measured and analyzed. It was found that the dispersion of sound speed is linearly related to frequency, while attenuation follows nonlinear frequency dependence. The dispersion characteristics of the sediments were compared with published literature and found to be consistent. Coarse particles show significant dispersion, while fine particles exhibit weak dispersion. The Biot-Stoll model was found to accurately predict the frequency-dependent characteristics of sound attenuation in a high-frequency band.