NUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL
Mining tunnel or civil tunnel excavation will cause tunnel internal support pressure to decrease. From the ground reaction curve, a decrease in tunnel internal support pressure will cause an increase in wall tunnel displacement. The author of this study will compare the result between numerical f...
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id-itb.:575952021-08-25T12:11:03ZNUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL Felix Dante Wiguna Hamzah, Ben Indonesia Final Project Ground Reaction Curve, Internal Support Pressure, Finite Element Method, Displacement, Tunnel. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/57595 Mining tunnel or civil tunnel excavation will cause tunnel internal support pressure to decrease. From the ground reaction curve, a decrease in tunnel internal support pressure will cause an increase in wall tunnel displacement. The author of this study will compare the result between numerical finite element method and analytical for non-circular tunnel. In this case, the tunnel will be modeled in the shape of a square and horseshoe. The side rock characteristic is homogenous, continuous, isotropy and elastoplastic with specific gravity equal to 0.027 MN/m3. Three main pressures of the tunnels have the same value equal to 7 MPa which is the internal support pressure itself at zero advance. The comparison result states that there are differences between the numerical and analytical ground reaction curve on non-circular tunnels. The difference is in the tunnel internal support critical pressure (Pcr). Square shaped tunnel Pcr value equal to 2.1 MPa while equivalent circular shaped tunnel equal to 2.88 MPa and horseshoe shaped tunnel Pcr value equal to 2.45 MPa while equivalent circular shaped tunnel equal to 2.88 MPa. text |
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Indonesia Indonesia |
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Indonesia |
| description |
Mining tunnel or civil tunnel excavation will cause tunnel internal support pressure to
decrease. From the ground reaction curve, a decrease in tunnel internal support pressure will
cause an increase in wall tunnel displacement. The author of this study will compare the result
between numerical finite element method and analytical for non-circular tunnel.
In this case, the tunnel will be modeled in the shape of a square and horseshoe. The side rock
characteristic is homogenous, continuous, isotropy and elastoplastic with specific gravity
equal to 0.027 MN/m3. Three main pressures of the tunnels have the same value equal to 7
MPa which is the internal support pressure itself at zero advance.
The comparison result states that there are differences between the numerical and analytical
ground reaction curve on non-circular tunnels. The difference is in the tunnel internal support
critical pressure (Pcr). Square shaped tunnel Pcr value equal to 2.1 MPa while equivalent
circular shaped tunnel equal to 2.88 MPa and horseshoe shaped tunnel Pcr value equal to 2.45
MPa while equivalent circular shaped tunnel equal to 2.88 MPa. |
| format |
Final Project |
| author |
Felix Dante Wiguna Hamzah, Ben |
| spellingShingle |
Felix Dante Wiguna Hamzah, Ben NUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL |
| author_facet |
Felix Dante Wiguna Hamzah, Ben |
| author_sort |
Felix Dante Wiguna Hamzah, Ben |
| title |
NUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL |
| title_short |
NUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL |
| title_full |
NUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL |
| title_fullStr |
NUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL |
| title_full_unstemmed |
NUMERICAL MODELLING TO CREATE GROUND REACTION CURVE ON NON-CIRCULAR CROSS SECTION TUNNEL |
| title_sort |
numerical modelling to create ground reaction curve on non-circular cross section tunnel |
| url |
https://digilib.itb.ac.id/gdl/view/57595 |
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1822002689496580096 |