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DEM study of particle scale effect on plain and rotary jacked pile behaviour in granular materials

DEM study of particle scale effect on plain and rotary jacked pile behaviour in granular materials
DEM study of particle scale effect on plain and rotary jacked pile behaviour in granular materials
The capacity of open-ended piles strongly depends on the potential plugging occurring during installation. The Discrete Element Method (DEM) is particularly suitable to the study of pile plugging, as it can model large soil deformation. However, DEM simulation of the 3D boundary value problems is computationally expensive, and particle upscaling is usually used to reduce the number of particles modelled. In this paper, two granular beds were created with the same average porosity, initial stress field and contact parameters, but different particle scales. Two pile geometries were installed by plain and rotary jacking. Normalised results show that the pile penetration mechanism is strongly affected by the particle scale. Larger particles lead to earlier pile plugging, higher shaft resistance and require a greater force to penetrate the ground. This effect can be linked to a modified penetration mechanism, with larger shear zones and less well defined “nose cone” under the pile tip for larger particles. Changing particle scaling has a neutral effect on the total penetration resistance of a rotary jacked pile, but reduces the base penetration and increases the plug resistance. Maximising the ratio of particle scale to wall thickness is key to adequately capturing the pile coring mechanism.
Discrete Element Method, Pile jacking, Plugging, Rotary jacking
0266-352X
Cerfontaine, Benjamin
0730daf4-9d6b-4f2d-a848-a3fc54505a02
Ciantia, Matteo Oryem
475465e6-bb34-448e-8ea9-14459a8c5f27
Brown, Michael
ed21a8f3-1420-4900-8f5f-00f0202e5ce8
White, David
a986033d-d26d-4419-a3f3-20dc54efce93
Sharif, Yaseen
f8ed0802-9644-479f-b288-77dec7624aa8
Cerfontaine, Benjamin
0730daf4-9d6b-4f2d-a848-a3fc54505a02
Ciantia, Matteo Oryem
475465e6-bb34-448e-8ea9-14459a8c5f27
Brown, Michael
ed21a8f3-1420-4900-8f5f-00f0202e5ce8
White, David
a986033d-d26d-4419-a3f3-20dc54efce93
Sharif, Yaseen
f8ed0802-9644-479f-b288-77dec7624aa8

Cerfontaine, Benjamin, Ciantia, Matteo Oryem, Brown, Michael, White, David and Sharif, Yaseen (2023) DEM study of particle scale effect on plain and rotary jacked pile behaviour in granular materials. Computers and Geotechnics, 161, [105559]. (doi:10.1016/j.compgeo.2023.105559).

Record type: Article

Abstract

The capacity of open-ended piles strongly depends on the potential plugging occurring during installation. The Discrete Element Method (DEM) is particularly suitable to the study of pile plugging, as it can model large soil deformation. However, DEM simulation of the 3D boundary value problems is computationally expensive, and particle upscaling is usually used to reduce the number of particles modelled. In this paper, two granular beds were created with the same average porosity, initial stress field and contact parameters, but different particle scales. Two pile geometries were installed by plain and rotary jacking. Normalised results show that the pile penetration mechanism is strongly affected by the particle scale. Larger particles lead to earlier pile plugging, higher shaft resistance and require a greater force to penetrate the ground. This effect can be linked to a modified penetration mechanism, with larger shear zones and less well defined “nose cone” under the pile tip for larger particles. Changing particle scaling has a neutral effect on the total penetration resistance of a rotary jacked pile, but reduces the base penetration and increases the plug resistance. Maximising the ratio of particle scale to wall thickness is key to adequately capturing the pile coring mechanism.

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Accepted/In Press date: 23 May 2023
e-pub ahead of print date: 6 June 2023
Published date: September 2023
Additional Information: Publisher Copyright: © 2023
Keywords: Discrete Element Method, Pile jacking, Plugging, Rotary jacking

Identifiers

Local EPrints ID: 478025
URI: http://eprints.soton.ac.uk/id/eprint/478025
DOI: doi:10.1016/j.compgeo.2023.105559
ISSN: 0266-352X
PURE UUID: 35261e46-824a-4ca6-9328-9c61e01a3ea1
ORCID for Benjamin Cerfontaine: ORCID iD orcid.org/0000-0002-4833-9412
ORCID for David White: ORCID iD orcid.org/0000-0002-2968-582X

Catalogue record

Date deposited: 19 Jun 2023 17:05
Last modified: 17 Mar 2024 04:02

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Contributors

Author: Benjamin Cerfontaine ORCID iD
Author: Matteo Oryem Ciantia
Author: Michael Brown
Author: David White ORCID iD
Author: Yaseen Sharif

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