Effect of Moisture on Attraction Force in Beach Sand |
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Authors: | TAE-HYUNG KIM STEIN STURE |
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Affiliation: | 1. Division of Civil and Environmental System Engineering , Busan, Korea;2. Department of Civil Environmental and Architectural Engineering , Colorado, USA |
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Abstract: | Beach sands located above the sea water level exist in an unsaturated, rather than a fully saturated or dry state. Within the unsaturated zone, a steep excavated surface can be sustained for some unknown but finite time, and some slopes may remain stable for extended time periods due to capillary forces. These observations clearly indicate small but nonzero values for attraction strength (tensile strength and cohesion) in unsaturated beach sands, especially apparent but not confined to settings where there are low stress levels. Thus, experiments were carried out to quantify the magnitude of attraction strength in moist sands (D r ?=?30%) and to examine the variation of these values as a function of moisture content and presence of a small amount of fines. Tensile strength, which is significantly different from zero, increases with increasing moisture content and fines. However, the influences of fines on the tensile strength are substantially dependent on the water content. Apparent cohesion strength is also identified in moist sands. A simple relationship between tensile strength and apparent cohesion is proposed using the obtained data. This study would help to further understand the phenomenon of stability of beach sands. |
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Keywords: | capillary forces attraction strength apparent cohesion beach sands stability |
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