Abstract
It is commonly assumed that dry and saturated sands exhibit similar cone resistance–relative density relationships. Some studies pointed out that partial saturation and calcareous sands with considerable fines content are potential factors affecting these relationships. However, there is experimental evidence in Shaqour Bull Eng Geol Environ 66:59-70, (2006) that clean uncemented quartz sand may exhibit lower cone resistance in saturated conditions. The present study aims on contributing towards better understanding the effect of water saturation on cone resistance in sand. For this purpose, Ticino sand samples were prepared dry and saturated in a calibration chamber and cone penetration tests were performed over a wide range of relative densities and at two consolidation stresses. Overall, it was observed that dry and saturated samples exhibited similar cone resistances. Only slightly higher cone resistances were observed for dry samples at the lower consolidation stress. Two anomalous samples, which were tested dry at medium relative density, were found to exhibit way higher cone resistances than expected from published cone resistance–relative density relationships. The Young's modulus was observed to be proportional to cone resistance and independent of whether a sample was tested dry or saturated, being therefore considered as more robust soil property for cone resistance relationships.
Highlights
The cone penetration test is a widely applied subsoil investigation method (ASTM D5778 2012; DIN EN ISO 224761 2013) and numerous authors have discussed the factors that influence cone penetration test results (Robertson 2009; Robertson and Campanella 1983; Schmertmann 1978)
Dry and saturated Ticino sand samples were prepared and cone penetration tests were performed over a wide range of relative densities and at two consolidation stresses
The authors recommend that for a specific soil, one should establish the horizontal stress–horizontal strain relationship based on a number of lateral compression tests on samples having relative densities and consolidation stresses relevant to the study
Summary
The cone penetration test is a widely applied subsoil investigation method (ASTM D5778 2012; DIN EN ISO 224761 2013) and numerous authors have discussed the factors that influence cone penetration test results (Robertson 2009; Robertson and Campanella 1983; Schmertmann 1978). Significant differences in cone resistances between dry and saturated conditions were observed by Shaqour (2006) who performed cone penetration tests in quartz sand as well as in calcareous sand. The present study aims on contributing towards better understanding the effect of saturation on cone resistance in sand. For this purpose, dry and saturated Ticino sand samples were prepared and cone penetration tests were performed over a wide range of relative densities and at two consolidation stresses
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