Sand exhibits transversely isotropic (TI) characteristics, with its strength properties influenced by the coupling effects of the intermediate principal stress ratio b and the orientation angle δ of the bedding plane (BP) relative to the major principal stress. To address this, a novel sample preparation method for true triaxial tests has been developed, allowing the BP to rotate around the major, intermediate and minor principal stress axes, enabling the measurement of the strength anisotropy across all sectors on the deviatoric plane. This method features a specially designed dry pluviation device followed by a freezing process to prepare TI specimens that preserve the designed fabric characteristics, ensuring the prepared TI specimens precisely match the specific loading conditions of the true triaxial equipment. In total, 52 drained true triaxial tests are conducted, covering the full range of b and δ values across all sectors of the deviatoric plane. In addition, test results and theoretical analyses based on the TI characteristic mobilised plane (TI-CMP) criterion are integrated to investigate the strength anisotropy. Comparisons reveal that the TI-CMP criterion effectively captures the strength anisotropy observed in a space defined by the peak friction angle ϕ versus b and δ.
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3 April 2026
Research Article|
December 30 2025
The true triaxial strength anisotropy of sand
Dechun Lu;
Dechun Lu
*The Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education,
Beijing University of Technology
, Beijing, P. R. China
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Jingyu Liang
;
†School of Civil and Transportation Engineering,
Beijing University of Civil Engineering and Architecture
, Beijing, P. R. China
Corresponding author Jingyu Liang (liangjy@bucea.edu.cn)
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Zhiwei Gao;
Zhiwei Gao
‡Glasgow Computational Engineering Centre (GCEC), James Watt School of Engineering,
University of Glasgow
, Glasgow, UK
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Junhong Zhang;
Junhong Zhang
§The Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education,
Beijing University of Technology
, Beijing, P. R. China
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Xiuli Du
Xiuli Du
§The Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education,
Beijing University of Technology
, Beijing, P. R. China
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Corresponding author Jingyu Liang (liangjy@bucea.edu.cn)
Publisher: Emerald Publishing
Received:
November 18 2024
Accepted:
October 08 2025
Online ISSN: 1751-7656
Print ISSN: 0016-8505
Funding
Funding Group:
- Award Group:
- Funder(s): National Natural Science Foundation of China
- Award Id(s): 52025084,52108294
- Funder(s):
- Award Group:
- Funder(s): Royal Society (International Exchanges Cost Share Scheme with the NSFC
- Award Id(s): IEC\NSFC\223020
- Funder(s):
- Award Group:
- Funder(s): Pyramid Talent Training Project of BUCEA
- Award Id(s): JDYC20220812
- Funder(s):
- Funding Statement(s): This study was supported by the National Natural Science Foundation of China (grant nos. 52025084, 52108294), Royal Society (International Exchanges Cost Share Scheme with the NSFC (grant no. IEC\NSFC\223020) and the Pyramid Talent Training Project of BUCEA (JDYC20220812).
© 2025 Emerald Publishing Limited
2025
Emerald Publishing Limited
Licensed re-use rights only
Geotechnique (2026) 76 (4): 479–491.
Article history
Received:
November 18 2024
Accepted:
October 08 2025
Citation
Lu D, Liang J, Gao Z, Zhang J, Du X (2026), "The true triaxial strength anisotropy of sand". Geotechnique, Vol. 76 No. 4 pp. 479–491, doi: https://doi.org/10.1680/jgeot.24.01385
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