2023
DOI: 10.3390/geotechnics3020013
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Effect of Sample Preparation on Saturated and Unsaturated Shear Strength of Cohesionless Soils

Abstract: The geotechnical behavior of cohesionless soils is governed by field conditions. Such soils exist in two distinct forms, namely: disintegrated, such as fresh sediments under no overburden and/or no suction, and intact, such as old deposits with overburden and/or suction. The main contribution of this research was the successful capture of field conditions in laboratory samples, and the determination of shear strength under saturated and dried states. Results indicated that disintegrated samples possess identic… Show more

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Cited by 4 publications
(3 citation statements)
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“…For NP-NL (Figure 8a), the initial FS fluctuation extended by two months till end of June (due to saturated conditions arising from excess precipitation compared to evaporation), followed by an increase up to 1.5 (similar to mean climate conditions) till the end of September, an abrupt change to 1.1 during October (because lower the temperature reduces evaporation, thereby ensuring close to saturation), and a gradual reduction to 0.9 by the end of December (owing to continuous temperature reduction). Under the same conditions with TL (Figure 8b), the FS trend and values were quite similar to mean climate conditions (increased sliding moment), along with a reduction in resistance due to the collapse of the soil structure in wet climate conditions [99]. For US-NL (Figure 8c), the trends and FS values are similar to their counterparts for mean climate conditions such that the period for FS < 1 was extended till the end of June, and the period for FS > 1 was reduced till the end of September; the reasons for these observations are the same as before.…”
Section: Resultsmentioning
confidence: 56%
See 1 more Smart Citation
“…For NP-NL (Figure 8a), the initial FS fluctuation extended by two months till end of June (due to saturated conditions arising from excess precipitation compared to evaporation), followed by an increase up to 1.5 (similar to mean climate conditions) till the end of September, an abrupt change to 1.1 during October (because lower the temperature reduces evaporation, thereby ensuring close to saturation), and a gradual reduction to 0.9 by the end of December (owing to continuous temperature reduction). Under the same conditions with TL (Figure 8b), the FS trend and values were quite similar to mean climate conditions (increased sliding moment), along with a reduction in resistance due to the collapse of the soil structure in wet climate conditions [99]. For US-NL (Figure 8c), the trends and FS values are similar to their counterparts for mean climate conditions such that the period for FS < 1 was extended till the end of June, and the period for FS > 1 was reduced till the end of September; the reasons for these observations are the same as before.…”
Section: Resultsmentioning
confidence: 56%
“…The reported shear strength parameters (c = 0 and ϕ = 42 • ) for intact cohesionless soil under full saturation was used [99]. The unsaturated shear strength parameters were estimated using Equation (3).…”
Section: Soil Propertiesmentioning
confidence: 99%
“…In Figure 7, we also see dilatancy curves; the slag samples increased their volume with increasing shear. For the practical purposes of designing building structures, the dilatancy angle ψ is given by Equation ( 4) [41][42][43]. Excellent determination coefficients of R 2 = 0.997 were achieved for both slag samples.…”
Section: Laboratory Determination Of the Shear Strength Of The Slag A...mentioning
confidence: 98%