Abstract
Screw piles are efficient anchors to sustain large uplift loads and can be installed with low noise or vibration. Screw piles dimensions are currently increasing, renewing research interest to reduce the installation requirements (torque and crowd or vertical force). The Discrete Element Method (DEM) is an ideal technique to investigate the complex soil behaviour during screw pile installation. Different techniques such as particle upscaling or increase of pile penetration rate have been used to reduce the CPU time to more acceptable durations (e.g. few days or weeks). This paper investigates how such techniques can affect the accuracy of the results and change the installation mechanisms. Results show that maintaining a low particle scaling factor is essential to reproduce the correct mechanism at low pile advancement ratio (AR, defined as the vertical displacement per rotation divided by the helix pitch). The pile overflighting (AR ≤ 1) creates an upwards movement of particles, which in turn creates some tension in the pile. Smaller advancement ratios require smaller particles to accurately capture this effect. Results also show that the pile penetration rate must be maintained relatively low to avoid spurious inertial effects.
Highlights
Screw piles are composed of one or several steel helices connected to a shaft (Perko, 2009)
Results show that maintaining a low particle scaling factor is essential to reproduce the correct mechanism at low pile advancement ratio (AR, defined as the vertical displacement per rotation divided by the helix pitch)
The effect of numerical parameters on the macroscopic behaviour are first identified, interpreted based on micro
Summary
Screw (or helical) piles are composed of one or several steel helices connected to a shaft (Perko, 2009). They provide a significant uplift resistance once installed (Stanier et al, 2014; Giampa et al, 2017; Hao et al, 2019; Cerfontaine et al, 2020) and the helix rotation provides some pull-in force which facilitates pile instal lation (Cerfontaine et al, 2021). This “silent” installation mode, with low noise or vibration, makes them suitable for offshore applications (Byrne and Houlsby, 2015; Davidson et al, 2020; Spagnoli et al, 2020) or foundation in urban areas (Choi et al, 2013). Novel design and modelling methods are necessary to estimate the installation re quirements, design appropriate installation plant and to ensure that early refusal will not occur
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