TY - JOUR
T1 - Results of a dilatancy round robin
AU - Reid, David
AU - Fourie, Andy
AU - Dickinson, Simon
AU - Shanmugarajah, Thava
AU - Fanni, Riccardo
AU - Smith, Kyle
AU - Garfias, Juan
AU - Yuan, Bin
AU - Ghafghazi, Mason
AU - Duyvestyn, Adam
N1 - Publisher Copyright:
© 2024 Emerald Publishing Limited: All rights reserved.
PY - 2024/9/20
Y1 - 2024/9/20
N2 - The critical state approach currently finds widespread adoption in geotechnical engineering practice, particularly with respect to tailings storage facilities (TSFs). The laboratory component of such works usually involves determination of the critical state line (CSL) followed by stress- and state- dilatancy behaviour in triaxial compression conditions, characterised by the volumetric coupling parameter Ntc and the state dilatancy constant χtc. While the reliability of CSL testing using current state of practice methods has been recently demonstrated, it is currently unclear how reproducibly Ntc and χtc can be obtained. To investigate this, a dilatancy round robin program was carried out by five laboratories who regularly carry out such testing. In the first stage of the program, each laboratory adopted a version of "densification in layers", either dense moist tamping (DMT) or vibration-densification. While a generally consistent Ntc was observed, significant variation in χtc was seen. To further investigate this variation, a second stage was carried out where slurry deposition (SD) and the "air dried"(AD) technique were used. These techniques showed better agreement between laboratories, while also producing lower values of χtc than densification in layers. Some potential implications of these observations on current tailings engineering laboratory testing practice are outlined.
AB - The critical state approach currently finds widespread adoption in geotechnical engineering practice, particularly with respect to tailings storage facilities (TSFs). The laboratory component of such works usually involves determination of the critical state line (CSL) followed by stress- and state- dilatancy behaviour in triaxial compression conditions, characterised by the volumetric coupling parameter Ntc and the state dilatancy constant χtc. While the reliability of CSL testing using current state of practice methods has been recently demonstrated, it is currently unclear how reproducibly Ntc and χtc can be obtained. To investigate this, a dilatancy round robin program was carried out by five laboratories who regularly carry out such testing. In the first stage of the program, each laboratory adopted a version of "densification in layers", either dense moist tamping (DMT) or vibration-densification. While a generally consistent Ntc was observed, significant variation in χtc was seen. To further investigate this variation, a second stage was carried out where slurry deposition (SD) and the "air dried"(AD) technique were used. These techniques showed better agreement between laboratories, while also producing lower values of χtc than densification in layers. Some potential implications of these observations on current tailings engineering laboratory testing practice are outlined.
KW - critical state
KW - dilatancy
KW - round robin
KW - tailings
UR - http://www.scopus.com/inward/record.url?scp=85204882795&partnerID=8YFLogxK
U2 - 10.1680/jgere.24.00008
DO - 10.1680/jgere.24.00008
M3 - Article
AN - SCOPUS:85204882795
SN - 2052-6156
JO - Geotechnical Research
JF - Geotechnical Research
ER -