dc.creator |
HUTAGAMISSUFARDAL, HUTAGAMISSUFARDAL |
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dc.date.accessioned |
2020-06-15T03:58:36Z |
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dc.date.available |
2020-06-15T03:58:36Z |
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dc.identifier |
http://eprints.ulm.ac.id/2531/1/abstrak4.pdf |
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dc.identifier |
HUTAGAMISSUFARDAL, HUTAGAMISSUFARDAL The Effect of Soil Cracks on Cohesion and Internal Friction Angle at Landslide. The Effect of Soil Cracks on Cohesion and Internal Friction Angle at Landslide. |
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dc.identifier.uri |
https://repo-dosen.ulm.ac.id//handle/123456789/10767 |
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dc.description |
Abstract
In most cases of landslide in Indonesia and elsewhere in the world there is the fact that landslide occurred during heavy
rains, landslide may occur anytime in the rainy season, landslide occurs on rocky slopes or on the stiff silty or clayey
soil with a hard layer, landslide occurs on relatively gentle slopes, landslide does not occur on all part of the slopes even
though the condition of rocks and soil along the side of the road is relatively same and the intensity of rainfall are
practically the same. In areas with frequent landslide, the data surveyed from some field drill results on the ground
outside the landslide area showed that the layers of soil on the slopes of the mountains was not saturated, and the
ground water level is quite deep. A preliminary investigation showed that the soil cracks has occurred on the slope. The
cracks occur due to soil movement or weathering by plant. Cracks in the soil can be short or long and even form a
potential areas of landslides on the slopes. The cracks area is then filled by rainwater. This rainwater that fills the
cracks area causes the independent pore water pressure on the slopes. The purpose of this research is to analyze the
influence of cracks on the shear strength parameters of cohesion (c ') and the internal friction angle (). A series of
laboratory activities carried out by varying the cracks in the test specimen ranging from 0% to 75% then testing using
the direct shear test tool that has been modified. The results showed that the cracks in the soil greatly affects the
decrease in shear strength but did not significantly affect the internal friction angle. The results of soil parameters in
cracking conditions were then compared with the incidence of catastrophic landslide in the field to explain the
phenomenon of sliding slopes.
Key Words
Slopes, landslides, rain, cracks, cohesion, internal friction angle |
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dc.format |
text |
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dc.relation |
http://eacef2017.hanyang.ac.kr/ |
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dc.relation |
http://eprints.ulm.ac.id/2531/ |
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dc.subject |
AI Indexes (General) |
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dc.title |
The Effect of Soil Cracks on Cohesion and Internal Friction Angle at Landslide |
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dc.type |
Article |
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dc.type |
PeerReviewed |
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