Yogendra Tandel scite author profile

The application of stone column technique for improvement of soft soils has attracted a considerable attention during the last decade. However, in a very soft soil, the stone columns undergo excessive bulging, because of very low lateral confi nement pressure provided by the surrounding soil. The performance of stone column can be improved by the encapsulation of stone column by geosynthetic, which acts to provide additional confi nement to columns, preventing excessive bulging and column failure. In the present study, a detailed experimental study on behavior of single column is carried out by varying parameters like diameter of the stone column, length of stone column, length of geosynthetic encapsulation and stiffness of encapsulation material. In addition, fi nite-element analyses have been performed to access the radial deformation of stone column. The results indicate a remarkable increase in load carrying capacity due to encapsulation. The load carrying capacity of column depends very much upon the diameter of the stone column and stiffness of encapsulation material. The results show that partial encapsulation over top half of the column and fully encapsulated fl oating column of half the length of clay bed thickness give lower load carrying capacity than fully encapsulated end bearing column. In addition, radial deformation of stone column decreases with increasing stiffness of encapsulation material.

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An Experimental Study on High Strength Concrete using Fly Ash and Alccofine

Qureshi¹,

Tandel²,

Patel³

2014

JSTE

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Field behaviour geotextile reinforced sand column

Tandel¹,

Solanki²,

Desai³

2014

Geomech. Eng.

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3D FE Analysis of an Embankment Construction on GRSC and Proposal of a Design Method

Tandel

Solanki

Desai

2013

ISRN Civil Engineering

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Stone column is often employed for strengthening of an embankment seated on deep soft clay. But in very soft clay having undrained shear strength less than or equal to 15 kPa, stone column may not derive adequate load carrying capacity and undergo large lateral deformation due to inadequate lateral confinement. In such circumstances, reinforcement to individual stone column by geosynthetics enhances load carrying capacity and reduces lateral deformation. This paper addresses parametric study on behaviour of embankment resting on Geosynthetic Reinforced Stone Column (GRSC) considering parameters such as stone column spacing to diameter ratio, deformation modulus of stone column material, geosynthetic stiffness, thickness of soft clay, and height of embankment by 3D numerical analysis. Finally, equation for Settlement Improvement Factor (SIF), defined as ratio between settlement of embankment without treatment and with geosynthetic reinforced stone column, is proposed that correlates with the major influence parameters such as stone column spacing to diameter ratio, deformation modulus of soft clay, and geosynthetic stiffness.

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Yogendra Tandel

Model Tests on Granular Pile Anchor and Helical Anchor: A Comparative Study

Laboratory Experimental Analysis on Encapsulated Stone Column

An Experimental Study on High Strength Concrete using Fly Ash and Alccofine

Field behaviour geotextile reinforced sand column

3D FE Analysis of an Embankment Construction on GRSC and Proposal of a Design Method

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