A Short State-of-the-Art Review on Construction and Settlement of Soft Clay Soil Reinforced with Stone Column

Vahedian, Abbas; Mahini, Saeed S; Aghdaei, S A

doi:10.7763/IJET.2014.V6.735

Author(s)

Vahedian, Abbas

Mahini, Saeed S

Aghdaei, S A

Publication Date

2014

Abstract

The primary application of various geotechnical construction techniques is for ground improvement. Many soil improvement methods have been developed due to the ongoing increase in urban and industrial growth and the need for greater access to lands. Stone columns are one of the best available techniques for soft clay soil improvement. In this method, subsurface soils which are weak and unstable are replaced with compacted dense aggregate columns that often entirely penetrate into the weak layers. This paper aims to present a short state-of-the art on the stone column ground improvement technique based on existing literature and standards. Due to high permeability of the material component used in the stone columns, not only the load carrying capacity of the soil is raised, but also the soil settlement is reduced considerably and the post construction settlement is minimized. To achieve this goal, several significant characteristics of stone column in terms of design parameters are considered. One example of the behavior assessment of reinforced soil using stone column is included. A new one-dimensional analysis has been studied in addition to a simplified nonlinear finite element method. The results indicate that the new method is reliable. It is also indicated that the settlement of the soil without stone columns is significantly higher than the similar soil reinforced with stone column.

Citation

International Journal of Engineering and Technology, 6(5), p. 420-426

ISSN

1793-8236

1793-8244

Link

https://hdl.handle.net/1959.11/15481

Language

en

Publisher

International Association of Computer Science and Information Technology (IACSIT)

Title

A Short State-of-the-Art Review on Construction and Settlement of Soft Clay Soil Reinforced with Stone Column

Type of document

Journal Article

Entity Type

Publication

Author(s)	Vahedian, Abbas Mahini, Saeed S Aghdaei, S A
Publication Date	2014
Abstract	The primary application of various geotechnical construction techniques is for ground improvement. Many soil improvement methods have been developed due to the ongoing increase in urban and industrial growth and the need for greater access to lands. Stone columns are one of the best available techniques for soft clay soil improvement. In this method, subsurface soils which are weak and unstable are replaced with compacted dense aggregate columns that often entirely penetrate into the weak layers. This paper aims to present a short state-of-the art on the stone column ground improvement technique based on existing literature and standards. Due to high permeability of the material component used in the stone columns, not only the load carrying capacity of the soil is raised, but also the soil settlement is reduced considerably and the post construction settlement is minimized. To achieve this goal, several significant characteristics of stone column in terms of design parameters are considered. One example of the behavior assessment of reinforced soil using stone column is included. A new one-dimensional analysis has been studied in addition to a simplified nonlinear finite element method. The results indicate that the new method is reliable. It is also indicated that the settlement of the soil without stone columns is significantly higher than the similar soil reinforced with stone column.
Citation	International Journal of Engineering and Technology, 6(5), p. 420-426
ISSN	1793-8236 1793-8244
Link	https://hdl.handle.net/1959.11/15481
Language	en
Publisher	International Association of Computer Science and Information Technology (IACSIT)
Title	A Short State-of-the-Art Review on Construction and Settlement of Soft Clay Soil Reinforced with Stone Column
Type of document	Journal Article
Entity Type	Publication

A Short State-of-the-Art Review on Construction and Settlement of Soft Clay Soil Reinforced with Stone Column

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