Sound Velocity vs Temperature in Water-Saturated Sediments

Sound velocity vs temperature was measured in a continental shelf silt, a calcareous ooze, a deep-sea red clay, a continental slope clay, and a quartz sand using a resonant chamber technique. The temperature effect on these water-saturated sediments was approximately the same as for water alone. Thi...

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Veröffentlicht in:	The Journal of the Acoustical Society of America 1958-07, Vol.30 (7_Supplement), p.684-684
1. Verfasser:	Shumway, George
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Sprache:	eng
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description	Sound velocity vs temperature was measured in a continental shelf silt, a calcareous ooze, a deep-sea red clay, a continental slope clay, and a quartz sand using a resonant chamber technique. The temperature effect on these water-saturated sediments was approximately the same as for water alone. This similarity to water behavior would be expected inasmuch as the compressibility of a water-sediment mixture is dominantly due to the relatively large water compressibility. Theoretical velocity-temperature curves were computed from handbook data on density and compressibility of water and mineral constituents as a function of temperature, and these curves fit the experimental data reasonably well.
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title	Sound Velocity vs Temperature in Water-Saturated Sediments
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