LIQUEFACTION POTENTIAL ANALYSIS BASED ON DETERMINISTIC SEISMIC HAZARD ANALYSIS AND N-SPT ON JOGJA - SOLO TOLL ROAD
efaction. Liquefaction is a phenomenon when the soil loses its bearing capacity and strength due to cyclic loading such as earthquake. The impact of liquefaction can result in significant losses and damage to infrastructure. Therefore, it is necessary to conduct a liquefaction potential analys...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/79347 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | efaction. Liquefaction is a phenomenon when the soil loses its
bearing capacity and strength due to cyclic loading such as earthquake. The impact
of liquefaction can result in significant losses and damage to infrastructure.
Therefore, it is necessary to conduct a liquefaction potential analysis for the Jogja
– Solo Toll Road project.
Section 1.2 of the Jogja – Solo Toll Road is selected as the research area for
analyzing earthquake hazards and liquefaction potential. Based on the
stratigraphy, the study area is situated within the Merapi Volcano Rock Formation,
which serves as the surface deposit dating back to the Quaternary period. The
Quaternary deposits consist of loose materials such as sand, tuffaceous sand, silty
sand, and clayey silt, which are prone to liquefaction potential.
This research was conducted using the deterministic seismic hazard analysis
(DSHA) from a particular seismic source, North Opak Fault 1, as well as the
potential liquefaction calculated using the Idriss and Boulanger (2014) method for
Standard Penetration Test (N-SPT) on twenty seven boreholes. The DSHA results
show that the peak ground acceleration (PGA) of the study area ranges from 0.3 to
0.5 g, indicating a moderate intensity. Additionally, a low liquefaction potential of
37% was obtained and derived from observations of 10 out of 27 boreholes that
showed a safety factor below 1 and a percentage of fine grain below 35%. Among
the ten boreholes, only one borehole is high in liquefaction potential, while the
remaining nine boreholes are low in liquefaction potential. |
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