Deformation Model of Deep Soil Mixing Using Finite Element Method

Ahmad Safuan A. Rashid; Koohyar Faizi; Danial Jahed Armaghani; Ramli Nazir

doi:10.11113/jt.v74.3316

Deformation Model of Deep Soil Mixing Using Finite Element Method

Ahmad Safuan A. Rashid, Koohyar Faizi, Danial Jahed Armaghani, Ramli Nazir

University of Technology Malaysia

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Soil improvement is required to decrease the construction impact on the adjacent underground structures, when a deep excavation is carried out. Deep soil mixing (DSM) is a common method to control deformation caused by deep excavation. This method is an in situ soil mixing technology that mixes existing soil with cementitious materials. This paper presents a numerical modeling of DSM columns, which was conducted to compare the affected zone achieved by installing two different partially penetrated soil-cement columns using a small scale physical modelling. Test procedure and the finite element analysis that verify ground displacement patterns were described. The finite element method (FEM) was focused on the plane strain numerical modeling in ABAQUS. It was found that higher numbers of piles increase the effect of soil deformation where it will extend the soil in much deeper depth before it fails.

Original language	English
Pages (from-to)	165-170
Number of pages	6
Journal	Jurnal Teknologi
Volume	74
Issue number	1
Early online date	15 Apr 2015
DOIs	https://doi.org/10.11113/jt.v74.3316
Publication status	Published - 1 May 2015
Externally published	Yes

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Cite this

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title = "Deformation Model of Deep Soil Mixing Using Finite Element Method",

abstract = "Soil improvement is required to decrease the construction impact on the adjacent underground structures, when a deep excavation is carried out. Deep soil mixing (DSM) is a common method to control deformation caused by deep excavation. This method is an in situ soil mixing technology that mixes existing soil with cementitious materials. This paper presents a numerical modeling of DSM columns, which was conducted to compare the affected zone achieved by installing two different partially penetrated soil-cement columns using a small scale physical modelling. Test procedure and the finite element analysis that verify ground displacement patterns were described. The finite element method (FEM) was focused on the plane strain numerical modeling in ABAQUS. It was found that higher numbers of piles increase the effect of soil deformation where it will extend the soil in much deeper depth before it fails.",

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AU - Rashid, Ahmad Safuan A.

AU - Faizi, Koohyar

AU - Armaghani, Danial Jahed

AU - Nazir, Ramli

PY - 2015/5/1

Y1 - 2015/5/1

N2 - Soil improvement is required to decrease the construction impact on the adjacent underground structures, when a deep excavation is carried out. Deep soil mixing (DSM) is a common method to control deformation caused by deep excavation. This method is an in situ soil mixing technology that mixes existing soil with cementitious materials. This paper presents a numerical modeling of DSM columns, which was conducted to compare the affected zone achieved by installing two different partially penetrated soil-cement columns using a small scale physical modelling. Test procedure and the finite element analysis that verify ground displacement patterns were described. The finite element method (FEM) was focused on the plane strain numerical modeling in ABAQUS. It was found that higher numbers of piles increase the effect of soil deformation where it will extend the soil in much deeper depth before it fails.

AB - Soil improvement is required to decrease the construction impact on the adjacent underground structures, when a deep excavation is carried out. Deep soil mixing (DSM) is a common method to control deformation caused by deep excavation. This method is an in situ soil mixing technology that mixes existing soil with cementitious materials. This paper presents a numerical modeling of DSM columns, which was conducted to compare the affected zone achieved by installing two different partially penetrated soil-cement columns using a small scale physical modelling. Test procedure and the finite element analysis that verify ground displacement patterns were described. The finite element method (FEM) was focused on the plane strain numerical modeling in ABAQUS. It was found that higher numbers of piles increase the effect of soil deformation where it will extend the soil in much deeper depth before it fails.

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KW - Deep excavation

KW - Deep soil mixing

KW - Displacement

KW - Finite element method

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DO - 10.11113/jt.v74.3316

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SP - 165

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Deformation Model of Deep Soil Mixing Using Finite Element Method

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