ANALYSIS OF REINFORCED SOIL SLOPE WITH MSE (MECHANICALLY STABILIZED EARTH) SYSTEM
Slope stability analysis involves evaluating the stability condition and performance of a slope. Conducting a slope stability study in the research area is necessary to determine the safety factor (FoS) value of the slope when using the Mechanically Stabilised Earth (MSE) reinforcement system. M...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/78258 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Slope stability analysis involves evaluating the stability condition and
performance of a slope. Conducting a slope stability study in the research area is
necessary to determine the safety factor (FoS) value of the slope when using the
Mechanically Stabilised Earth (MSE) reinforcement system.
Mechanically stabilized earth walls (MSE) are typically employed to provide
structural support for embankments or earthworks in infrastructure projects such
as mines, bridges, and highways. This study was conducted at the filtration plant
project on the Martabe site. The walls were constructed using a layering
technique, with alternating layers of soil and reinforcement applied from the base
upwards. Analysis of the stability of reinforced walls or reinforced slopes using
Mechanically Stabilized Earth (MSE) conceptually has a safety factor calculation.
This is expressed as FoS = {(Resisting Force + Reinforcement Loads)/(Driving
Force)}. Determining the safety factor value for embankment slopes through the
MSE system involves empirical analysis using the numerical methods of the
Finite Element Method (FEM) and the Limit Equilibrium Method (LEM). Input
parameters include material properties, soil properties, and reinforcement
properties that were obtained from UCS test findings in the laboratory and from
the reports on geotechnical investigations in the research area. The FoS value
found from bishop’s method was 2.3 and the Janbu method 2.1 in the data
analysis of this study. The MSE wall is deemed stable at a critical SRF value of
2.4 with a displacement of 154 mm from numerical modeling and 160 mm from
field measurements horizontally. |
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