TY - JOUR
T1 - A SHANSEP approach to quantifying the behaviour of clayey soils on a constant shear drained stress path
AU - Reid, David
AU - Fanni, Riccardo
AU - Fourie, Andy
N1 - Publisher Copyright:
© 2024 The Author(s).
PY - 2024/8
Y1 - 2024/8
N2 - Assessing the risk of slope failures of earth structures comprising loose, saturated soils has seen increased focus recently owing to a series of prominent tailings and water dam failures. The potential for the triggering of slope instability by a rising phreatic surface——commonly referred to as the constant shear drained (CSD) stress path——has been well documented over the past few decades for sands and sandy soils under a wide range of loading modes. Alternatively, there has been limited CSD element testing of more clayey soils, with the available data rather showing a dilative tendency through the CSD stress path and mobilised strengths greater than the critical friction ratio, even for specimens commencing CSD shearing from an initially loose state. The current study expands on the CSD data of clayey soils by testing an iron ore tailings and kaolin clay in both triaxial and direct simple shear (DSS) devices, with an emphasis on the DSS. Owing to the tendency for the CSD stress path to result in an overconsolidated condition (i.e., unloading), the tests in the current study were interpreted in the SHANSEP framework given its frequent use to analyse clay behaviour. The results indicated that the SHANSEP framework can reasonably characterise some aspects of CSD behaviour of clays in DSS loading, with some caveats.
AB - Assessing the risk of slope failures of earth structures comprising loose, saturated soils has seen increased focus recently owing to a series of prominent tailings and water dam failures. The potential for the triggering of slope instability by a rising phreatic surface——commonly referred to as the constant shear drained (CSD) stress path——has been well documented over the past few decades for sands and sandy soils under a wide range of loading modes. Alternatively, there has been limited CSD element testing of more clayey soils, with the available data rather showing a dilative tendency through the CSD stress path and mobilised strengths greater than the critical friction ratio, even for specimens commencing CSD shearing from an initially loose state. The current study expands on the CSD data of clayey soils by testing an iron ore tailings and kaolin clay in both triaxial and direct simple shear (DSS) devices, with an emphasis on the DSS. Owing to the tendency for the CSD stress path to result in an overconsolidated condition (i.e., unloading), the tests in the current study were interpreted in the SHANSEP framework given its frequent use to analyse clay behaviour. The results indicated that the SHANSEP framework can reasonably characterise some aspects of CSD behaviour of clays in DSS loading, with some caveats.
KW - constant shear drained
KW - direct simple shear
KW - SHANSEP
UR - http://www.scopus.com/inward/record.url?scp=85199256406&partnerID=8YFLogxK
U2 - 10.1139/cgj-2022-0473
DO - 10.1139/cgj-2022-0473
M3 - Article
AN - SCOPUS:85199256406
SN - 0008-3674
VL - 61
SP - 1517
EP - 1540
JO - Canadian Geotechnical Journal
JF - Canadian Geotechnical Journal
IS - 8
ER -