S. Murugesan scite author profile

Stone columns (or granular piles) have proven to be ideal ground reinforcement for supporting flexible structures such as embankments and storage tanks. Stone columns installed in very soft soils will have very low lateral confinement: hence they undergo excessive bulging, leading to undue settlement and limited load-carrying capacity. In these situations, the strength and stiffness of the stone column can be enhanced by encasing the individual stone columns with a suitable geosynthetic. The encasement improves load transfer to deeper depths of soil. This paper investigates the qualitative and quantitative improvement of load capacity of individual encased stone columns through laboratory model tests. These tests were performed in a rigid unit cell that represents the stone column and the soil within the contributary area around the stone column. The load tests indicated a clear improvement in the load capacity of the stone column due to encasement. Encasement with geosynthetics having higher modulus resulted in stiffer response. The effect of encasement was found to decrease with increase in the diameter of the stone column. The improvement in the performance of stone columns was found to be significant, even with partial encasement.

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Studies on the Behavior of Single and Group of Geosynthetic Encased Stone Columns

Murugesan

Rajagopal

2010

J. Geotech. Geoenviron. Eng.

273

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Shear Load Tests on Stone Columns With and Without Geosynthetic Encasement

Murugesan

Rajagopal

2009

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The use of stone columns (otherwise called granular piles) has proved to be an economical and technically viable ground improvement technique for construction on soft clay soils. Though the stone columns are designed to carry vertical compressive loads, soil movements occurring in the field conditions may cause shear deformations in the stone columns. The stone columns, particularly installed in very soft soils, may not be able to resist these shear movements because of the low confinement offered by the surrounding soil. The shear load capacity of such stone columns can be significantly improved by encasing the individual stone columns with suitable geosynthetic. The encasement confines the aggregate and makes the stone column act like a semirigid pile; thus leading to increased shear stiffness of the column. This paper discusses some laboratory model tests performed to investigate the shear load capacity of stone columns with and without geosynthetic encasement. The laboratory tests were performed by inducing lateral soil movements in a stone column treated soft soil. The results have shown qualitative improvement in the shear stiffness of the stone column due to geosynthetic encasement.

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Performance of Encased Stone Columns and Design Guidelines for Construction on Soft Clay Soils

Murugesan

Rajagopal

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S. Murugesan

Geosynthetic-encased stone columns: Numerical evaluation

Model tests on geosynthetic-encased stone columns

Studies on the Behavior of Single and Group of Geosynthetic Encased Stone Columns

Shear Load Tests on Stone Columns With and Without Geosynthetic Encasement

Performance of Encased Stone Columns and Design Guidelines for Construction on Soft Clay Soils

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