Volume 42, N. 1

January-April 2019

Numerical Simulation of Vertical Pullout of Plate Anchors Embedded in Reinforced Sand

Article

Volume 42, N. 1, January-April 2019 | DOWNLOAD PDF (24 downloads)

Abstract

This paper presents a model to predict the ultimate pullout load (Pu) for a shallow single vertical plate anchor embedded in sand and fiber reinforced sand for depth (H)/diameter (D) ratios of 1.0, 1.5 and 2.0. The model was developed based on literature field test results and wide laboratory investigation. The numerical analysis was performed using the software ABAQUS considering elastoplasticity (Mohr Coulomb – Abaqus CAE) for modelling fiber reinforced sand. The results indicate that this type of fiber reinforced sand significantly increases the Pu of shallow anchor plates. Based on test results, critical values were discussed and recommended in order to estimate the Pu for shallow single vertical plate anchor embedded in sand and fiber reinforced sand. The proposed theory was compared against available bibliography of homogeneous material (sand) in field tests or analytical methods. The variability of the results shows that the proposed method is in the range of expected results. For fiber reinforced sand, no method for comparison has been found literature.

Keywords: elastoplasticity, fiber reinforced sand, numerical simulation, plate anchors, pullout load,


Submitted on April 21, 2018.
Final Acceptance on February 14, 2019.
Discussion open until August 30, 2019.
DOI: 10.28927/SR.421043