SOIL IMPROVEMENT USING STONE COLUMNS
Mahmoud El Shawaf Abdul Azim Aly Hammad;
Abstract
The special nature of soft soil deposits makes it one of the most complicated soil types to work with from a geotechnical engineering point of view. There are two main problems encountered when undertaking construction projects on soft soil deposits, excessive settlement and low shear strength.Stone columns are considered one of the most effective techniques used to improve soft soil deposits. Using stone columns to reinforce soft soil deposits increases the bearing capacity, reduces the settlement and accelerates the consolidation and construction time.
Different analytical methods used to calculate and study the improvement of the soft soil deposits when reinforced with stone columns represent the final behavior of the reinforced soil, i.e. after consolidation process takes place. Finite element analysisprograms can be used to study the behavior of the soft soil deposits reinforced with stone columns both during and after the consolidation process. In order to represent the problem accurately a three dimensional finite element analysis is required. However, due to the fact that two dimensional finite element analysis programs are common in practical application, a need to convert the three dimensional problem to a two dimensional configuration is needed.
One of the main objectives of this research is to investigate the different possible two dimensional configurations that can be used to model the problem of soft soil deposits reinforced with stone columns, and to recommend the configuration whose behavior is nearest to the actual behavior of the reinforced soft soil.
A case study of an embankment construction for Penchala Toll Plaza project at New Pantai Expressway, Malaysiais undertaken (Tan et al., 2008). A three dimensional finite element analysis of this case history using PLAXIS 3D is performed. A comparison between the numerically predicted behavior and the documented actual behavior of the embankmentshowed a good agreement between them.
A Comparison is then done between the results of the three dimensional numerical model and different configurations for a two dimensional numerical model of the same case study.An Axisymmetric configuration, a Plane strain configuration using an equivalent width for the column and a Plane strain configuration using equivalent parameters for the column are used to numerically model the case. The results show that the axisymmetric configuration shows the best agreement with the three dimensional analysis. Also, the plane strain with equivalent parameters configuration shows more reliability by giving more accurate results than the plane strain configuration using equivalent column parameters.
A study for the performance of the stone columns is conducted. The effect of various parameterssuch as the embankment height, column spacing and modulus of elasticity of the column on the stress concentration factor and column load share ratio as well as settlement and time reduction factors is studied through a parametric study. The findings of this parametric study are then compared to some of the other analytical approaches used to estimate the behavior of the reinforced soft soil and a recommendation is done for the appropriate analytical methods to be used.
Keywords: Stone columns, soil improvement, embankments, soft soil
Different analytical methods used to calculate and study the improvement of the soft soil deposits when reinforced with stone columns represent the final behavior of the reinforced soil, i.e. after consolidation process takes place. Finite element analysisprograms can be used to study the behavior of the soft soil deposits reinforced with stone columns both during and after the consolidation process. In order to represent the problem accurately a three dimensional finite element analysis is required. However, due to the fact that two dimensional finite element analysis programs are common in practical application, a need to convert the three dimensional problem to a two dimensional configuration is needed.
One of the main objectives of this research is to investigate the different possible two dimensional configurations that can be used to model the problem of soft soil deposits reinforced with stone columns, and to recommend the configuration whose behavior is nearest to the actual behavior of the reinforced soft soil.
A case study of an embankment construction for Penchala Toll Plaza project at New Pantai Expressway, Malaysiais undertaken (Tan et al., 2008). A three dimensional finite element analysis of this case history using PLAXIS 3D is performed. A comparison between the numerically predicted behavior and the documented actual behavior of the embankmentshowed a good agreement between them.
A Comparison is then done between the results of the three dimensional numerical model and different configurations for a two dimensional numerical model of the same case study.An Axisymmetric configuration, a Plane strain configuration using an equivalent width for the column and a Plane strain configuration using equivalent parameters for the column are used to numerically model the case. The results show that the axisymmetric configuration shows the best agreement with the three dimensional analysis. Also, the plane strain with equivalent parameters configuration shows more reliability by giving more accurate results than the plane strain configuration using equivalent column parameters.
A study for the performance of the stone columns is conducted. The effect of various parameterssuch as the embankment height, column spacing and modulus of elasticity of the column on the stress concentration factor and column load share ratio as well as settlement and time reduction factors is studied through a parametric study. The findings of this parametric study are then compared to some of the other analytical approaches used to estimate the behavior of the reinforced soft soil and a recommendation is done for the appropriate analytical methods to be used.
Keywords: Stone columns, soil improvement, embankments, soft soil
Other data
| Title | SOIL IMPROVEMENT USING STONE COLUMNS | Other Titles | تــــحسين التــــربة بإســــتخدام الأعمــــدة الحجــــرية | Authors | Mahmoud El Shawaf Abdul Azim Aly Hammad | Issue Date | 2014 |
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