This study investigates the effectiveness of a slope reinforcement system consisting of a network of recycled plastic posts interconnected at the slope surface with a geogrid. Centrifuge and numerical modelling were performed to study the shear resistance of soils reinforced by posts with or without geogrid connection. A large-area, direct shear apparatus that can be mounted on a centrifuge was utilised so that a soil block could be sheared at a predefined slip depth under a prototype-scale effective stress state. Eleven tests were conducted to study the effects of soil density, post spacing, and geogrid connection on the shear behaviour of the reinforced soil. The soil–structure interaction was analysed by the beam-on-non-linear-Winkler-foundation approach. The reinforcement effect was maximum when slip occurred at the mid-length of the post. For a deep slip, the reinforced soil followed an “intermediate mode” of failure, where the soil strength was fully mobilised along the post length. The geogrid increased the shear resistance of the reinforced soil, but these benefits were at the cost of additional mobilisation of bending stresses within the connected posts. Despite the significant improvements of soil stability, careful monitoring of the reinforced system might be required to prevent post overstress and yielding.
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Research Article|
June 19 2026
Using recycled plastic posts and geogrid to resist soil sliding
Li Ma
;
Li Ma
School of Architecture and Civil Engineering,
Xinjiang University, Xinjiang Key Laboratory of Building Structure and Earthquake Resistance
, Urumqi, China
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Anthony Kwan Leung
;
State Key Laboratory of Climate Resilience for Coastal Cities, Department of Civil and Environmental Engineering,
Hong Kong SAR
, China
Corresponding author Anthony Kwan Leung (ceanthony@ust.hk)
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Jonathan Adam Knappett
;
Jonathan Adam Knappett
Department of Engineering Science,
University of Oxford
, Oxford, U.K
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Davide Vitali;
Davide Vitali
Whole Life Consultants Ltd
, Dundee, U.K
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Hendrie Barbour
Hendrie Barbour
MHB Consultants Ltd
., U.K
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Corresponding author Anthony Kwan Leung (ceanthony@ust.hk)
Publisher: Emerald Publishing
Received:
August 15 2024
Accepted:
March 13 2026
Online ISSN: 2042-6550
Print ISSN: 1346-213X
© 2026 Emerald Publishing Limited
2026
Emerald Publishing Limited
Licensed re-use rights only
International Journal of Physical Modelling in Geotechnics 1–16.
Article history
Received:
August 15 2024
Accepted:
March 13 2026
Citation
Ma L, Leung AK, Knappett JA, Vitali D, Barbour H (2026;), "Using recycled plastic posts and geogrid to resist soil sliding". International Journal of Physical Modelling in Geotechnics, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1680/jphmg.24.00039
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