A series of drained torsional shear hollow cylinder (HC) and triaxial compression (TC) tests were conducted on a silty sand iron ore tailings to investigate the effect of the principal stress angle on the critical stress ratio M. Two different combinations of principal stress angle α and intermediate principal stress ratio b were tested in the HC (α = 23° and b = 0·3 or α = 45° and b = 0·3) and then compared with the axisymmetric condition from the TC tests. The volumetric coupling parameter N (Nova’s flow rule) and the state-dilatancy coefficient χ were additionally estimated for each loading condition. The results showed that M is not unique for the same b, being also affected by α, which may be attributed to the effects of anisotropy. An increase in M of 9% was found when α was decreased from 45° to 23° while keeping the same b of 0·3. The results further show that χ does not depend on α when tested at a fixed value of b; however, it exhibits substantial variation relative to the TC condition when tested at b = 0·3.
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Research Article|
July 10 2026
Effect of principal stress angle on the critical stress ratio of a silty sand tailings
A. C. Telles
;
*Department of Civil, Environmental and Mining Engineering,
The University of Western Australia
, Perth, Australia
Corresponding author A. C. Telles (telles.anac@gmail.com)
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D. Reid
;
D. Reid
†
The University of Western Australia
, Perth, Australia
; Red Earth Engineering, Perth, Australia
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A. Fourie
A. Fourie
§Department of Civil, Environmental and Mining Engineering,
The University of Western Australia
, Perth, Australia
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Corresponding author A. C. Telles (telles.anac@gmail.com)
Publisher: Emerald Publishing
Received:
February 05 2025
Accepted:
March 17 2026
Online ISSN: 2045-2543
© 2026 Emerald Publishing Limited
2026
Emerald Publishing Limited
Licensed re-use rights only
Geotechnique Letters 1–6.
Article history
Received:
February 05 2025
Accepted:
March 17 2026
Citation
Telles AC, Reid D, Fanni R, Fourie A (2026;), "Effect of principal stress angle on the critical stress ratio of a silty sand tailings". Geotechnique Letters, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1680/jgele.25.00013
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