COMPARATIVE ANALYSIS OF GROUND IMPROVEMENT USING PREFABRICATED VERTICAL DRAIN METHOD AND STONE COLUMN METHOD, PROJECT CASE STUDY IN STOCK YARD COAL TERMINAL LUBUK TUTUNG, EAST KALIMANTA
To overcome the problem of soft soil bearing capacity can be done in various ways such as improving the condition of the land base and improve the system load. Improve loading system in question is the gradual loading. With the gradual loading is expected to increase the bearing capacity of the s...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/35584 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | To overcome the problem of soft soil bearing capacity can be done in various
ways such as improving the condition of the land base and improve the system
load. Improve loading system in question is the gradual loading. With the gradual
loading is expected to increase the bearing capacity of the subgrade over time and
compression that occurs. Due to time constraints of construction, then in the
process of increasing the bearing capacity of soil is used prefabricated vertical
drain that process happen faster. Meanwhile, to improve the condition of the
subgrade is to install something on the ground, one of them is by installing a stone
column under the pile that aims to improve soil strength.
This final report discusses the comparison between the two methods of soil
improvement is prefabricated vertical drains and stone column is modeled in plane
strain field using PLAXIS 2D software. In the modeling of prefabricated vertical
drains and stone column in plane strain fields necessary adjustments few
parameters in order to obtain the results of modeling that can present the real
situation on the ground. These parameters are stiffness improved soil, stone
column stiffness, and soil permeability improved by prefabricated vertical drain,
as well as the geometry of a stone column diameter and spacing adjustments
between stone column. Modeling results have shown that the improvement using
stone column can decrease the settlement and accelerate the consolidation process
significantly compared soil improvement using prefabricated vertical drains with
preloading. |
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