Jie Han scite author profile

Field observations and numerical studies demonstrated that stone columns could accelerate the rate of consolidation of soft clays. A simplified method for computing the rate of consolidation is presented in this paper by assuming that stone columns; (1) are free draining; (2) have higher drained elastic modulus than soft clay; and (3) are deformed 1D. The formats of the final solutions in vertical and radial flows are similar to those of the Terzaghi 1D solution and the Barron solution for drain wells in fine-grained soils, respectively. Modified coefficients of consolidation are introduced to account for effects of the stone column-soil modular ratio. The new solutions demonstrate stress transfer from the soil to stone columns and dissipation of excess pore water pressures due to drainage and vertical stress reduction during the consolidation. Comparisons between the results from this simplified method and the numerical study by Balaam and Booker in 1981 exhibit reasonable agreement, when the stress concentration ratio is in the practical range (2-6). The discrepancies in the results from these two methods are discussed. This paper also includes design charts and a design example.

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Design Method for Geogrid-Reinforced Unpaved Roads. II. Calibration and Applications

Giroud

Han

2004

J. Geotech. Geoenviron. Eng.

164

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Jie Han

Numerical Analysis of Geosynthetic-Reinforced and Pile-Supported Earth Platforms over Soft Soil

Design Method for Geogrid-Reinforced Unpaved Roads. I. Development of Design Method

Simplified Method for Consolidation Rate of Stone Column Reinforced Foundations

Design Method for Geogrid-Reinforced Unpaved Roads. II. Calibration and Applications

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