Interpretation of Cone Penetration Testing in Silty Soils Conducted under Partially Drained Conditions: Fid-Bau Portal

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Interpretation of Cone Penetration Testing in Silty Soils Conducted under Partially Drained Conditions

Holmsgaard, Rikke / Nielsen, Benjaminn Nordahl / Ibsen, Lars Bo

The standard penetration rate used in cone penetration tests (CPTs) is $20 mm / s$ , regardless of soil type, which yields fully drained penetration in sand and fully undrained penetration in clay. However, for silty soils that represent an intermediate grain size composition and unique characteristics compared with sand and clay, the standard rate of penetration results in partially drained penetration, often leading to misinterpretation of this soil type. In this study, 15 CPTs, with penetration rates varying from 0.5 to $60 mm / s$ , were performed at a test site in northern Denmark, where the subsoil consisted primarily of sandy silt with clay bands. The results illustrated that when the penetration rate is reduced, the cone resistance increases, but the pore pressure decreases. The transition between undrained and fully drained penetration was determined by converting the results into a normalized penetration rate. Also evaluated and presented in this paper is how cone resistance obtained under partially drained conditions underestimates the interpreted relative density $D_{r}$ and friction angle $ϕ$ . Triaxial test results on undisturbed silt samples were applied for this analysis.

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Interpretation of Cone Penetration Testing in Silty Soils Conducted under Partially Drained Conditions

Holmsgaard, Rikke / Nielsen, Benjaminn Nordahl / Ibsen, Lars Bo

The standard penetration rate used in cone penetration tests (CPTs) is $20 mm / s$ , regardless of soil type, which yields fully drained penetration in sand and fully undrained penetration in clay. However, for silty soils that represent an intermediate grain size composition and unique characteristics compared with sand and clay, the standard rate of penetration results in partially drained penetration, often leading to misinterpretation of this soil type. In this study, 15 CPTs, with penetration rates varying from 0.5 to $60 mm / s$ , were performed at a test site in northern Denmark, where the subsoil consisted primarily of sandy silt with clay bands. The results illustrated that when the penetration rate is reduced, the cone resistance increases, but the pore pressure decreases. The transition between undrained and fully drained penetration was determined by converting the results into a normalized penetration rate. Also evaluated and presented in this paper is how cone resistance obtained under partially drained conditions underestimates the interpreted relative density $D_{r}$ and friction angle $ϕ$ . Triaxial test results on undisturbed silt samples were applied for this analysis.

Interpretation of Cone Penetration Testing in Silty Soils Conducted under Partially Drained Conditions

Holmsgaard, Rikke / Nielsen, Benjaminn Nordahl / Ibsen, Lars Bo

The standard penetration rate used in cone penetration tests (CPTs) is $20 mm / s$ , regardless of soil type, which yields fully drained penetration in sand and fully undrained penetration in clay. However, for silty soils that represent an intermediate grain size composition and unique characteristics compared with sand and clay, the standard rate of penetration results in partially drained penetration, often leading to misinterpretation of this soil type. In this study, 15 CPTs, with penetration rates varying from 0.5 to $60 mm / s$ , were performed at a test site in northern Denmark, where the subsoil consisted primarily of sandy silt with clay bands. The results illustrated that when the penetration rate is reduced, the cone resistance increases, but the pore pressure decreases. The transition between undrained and fully drained penetration was determined by converting the results into a normalized penetration rate. Also evaluated and presented in this paper is how cone resistance obtained under partially drained conditions underestimates the interpreted relative density $D_{r}$ and friction angle $ϕ$ . Triaxial test results on undisturbed silt samples were applied for this analysis.

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Titel:

Interpretation of Cone Penetration Testing in Silty Soils Conducted under Partially Drained Conditions

Beteiligte:

Holmsgaard, Rikke (Autor:in) / Nielsen, Benjaminn Nordahl (Autor:in) / Ibsen, Lars Bo (Autor:in)

Erschienen in:

Journal of Geotechnical and Geoenvironmental Engineering ; 142

Erscheinungsdatum:

22.07.2015

ISSN:

1090-0241 , 1943-5606

DOI:

https://doi.org/10.1061/(ASCE)GT.1943-5606.0001386

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Unbekannt

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