STUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH
Study of stress and deformation analysis in soft soil tunnels usingAnalysis of stress and deformation in soft ground tunnels using both conventional methods and finite element approach is made as a form of contribution to the development of civil engineering knowledge. This analysis study aims to...
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id-itb.:826002024-07-09T10:11:55ZSTUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH Caesar Cahyadi, Reagan Indonesia Final Project TBM tunneling, internal forces & deformation of tunnel, conventional method, element method, tunnel design INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/82600 Study of stress and deformation analysis in soft soil tunnels usingAnalysis of stress and deformation in soft ground tunnels using both conventional methods and finite element approach is made as a form of contribution to the development of civil engineering knowledge. This analysis study aims to expand research on soft soil tunnels, which is currently developing in Indonesia. Important activities in this research include: comparing the results of conventional methods and finite element method (FEM) analysis for the case study of Tunnel 1 in the Jakarta-Bandung High- Speed Rail project, examining whether the tunnel design meets standards based on the analysis results, comparing the use of Earth Pressure Balance (EPB) Shield Tunnel Boring Machine (TBM) and Slurry Shield TBM for the case of Tunnel 1, evaluating and redesigning the tunnel's cross-section and reinforcement, and determining the face stability pressure for TBM in tunnel excavation. The methodology used in this analysis study includes literature review, data collection, FEM analysis, and analysis and validation with literature studies based on the obtained results. Based on this analysis study, it was found that conventional methods tend to overestimate the internal forces in tunnels in soft soil compared to FEM. According to the difference in values, the Curtis-Muir Wood conventional method provides internal force results most similar to the FEM analysis results for the case. It was also found that the tunnel design based on the QCR9230-2016 standard is not met for the soil condition at Halim Station. The redesign results of the tunnel are presented in subsection 8.2. Lastly, it was also found that the construction of Tunnel 1 in the Jakarta-Bandung High-Speed Rail project is well-suited using the slurry shield TBM construction method. text |
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Study of stress and deformation analysis in soft soil tunnels usingAnalysis of stress
and deformation in soft ground tunnels using both conventional methods and finite
element approach is made as a form of contribution to the development of civil
engineering knowledge. This analysis study aims to expand research on soft soil
tunnels, which is currently developing in Indonesia. Important activities in this
research include: comparing the results of conventional methods and finite element
method (FEM) analysis for the case study of Tunnel 1 in the Jakarta-Bandung High-
Speed Rail project, examining whether the tunnel design meets standards based on
the analysis results, comparing the use of Earth Pressure Balance (EPB) Shield
Tunnel Boring Machine (TBM) and Slurry Shield TBM for the case of Tunnel 1,
evaluating and redesigning the tunnel's cross-section and reinforcement, and
determining the face stability pressure for TBM in tunnel excavation.
The methodology used in this analysis study includes literature review, data
collection, FEM analysis, and analysis and validation with literature studies based
on the obtained results.
Based on this analysis study, it was found that conventional methods tend to
overestimate the internal forces in tunnels in soft soil compared to FEM. According
to the difference in values, the Curtis-Muir Wood conventional method provides
internal force results most similar to the FEM analysis results for the case. It was
also found that the tunnel design based on the QCR9230-2016 standard is not met
for the soil condition at Halim Station. The redesign results of the tunnel are
presented in subsection 8.2. Lastly, it was also found that the construction of Tunnel
1 in the Jakarta-Bandung High-Speed Rail project is well-suited using the slurry
shield TBM construction method.
|
| format |
Final Project |
| author |
Caesar Cahyadi, Reagan |
| spellingShingle |
Caesar Cahyadi, Reagan STUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH |
| author_facet |
Caesar Cahyadi, Reagan |
| author_sort |
Caesar Cahyadi, Reagan |
| title |
STUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH |
| title_short |
STUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH |
| title_full |
STUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH |
| title_fullStr |
STUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH |
| title_full_unstemmed |
STUDY OF STRESS AND DEFORMATION ANALYSIS IN SOFT SOIL TUNNELS USING CONVENTIONAL METHODS AND FINITE ELEMENT APPROACH |
| title_sort |
study of stress and deformation analysis in soft soil tunnels using conventional methods and finite element approach |
| url |
https://digilib.itb.ac.id/gdl/view/82600 |
| _version_ |
1822009828046798848 |