MEASUREMENT OF WETTING SOIL-WATER CHARACTERISTICS CURVE OF GALUNGGUNG SAND ON MATRIX SUCTION VALUE OF 0-20 KILOPASCAL USING COLUMN CAPILARITY METHOD
Indonesia is a country with a tropical climate. Tropical climate plays an important role in changes in soil volume. This is because the water content in the soil also changes. This change in water content can be seen through the soil-water characteristic curve. One method of measuring the soil-wa...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/66986 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Indonesia is a country with a tropical climate. Tropical climate plays an important
role in changes in soil volume. This is because the water content in the soil also
changes. This change in water content can be seen through the soil-water
characteristic curve. One method of measuring the soil-water characteristic curve
that can vary the matrix suction value is using the Tempe cell. However, the price
of these tools is very expensive. Thus, other tools and methods are needed that are
less expensive to measure the soil-water characteristic curve such as the column
capillarity method
The column capillarity method forms the soil into a soil column, then distilled water
is added to the bottom, and then observed for a certain period. After that, the soil
moisture content was observed at each certain height to get the water content value
in the suction matrix that corresponds to the height from which the soil was taken.
This process is carried out until an equilibrium moisture content value is obtained
for each specified matrix suction value. The value of the water content that has been
in equilibrium with the corresponding matrix suction value is entered into the graph
so that it becomes a soil-water characteristic curve. In addition, test simulations in
the laboratory were also carried out using the SEEP/W application to justify the
tests result.
The wetting soil-water characteristic curve of galunggung sand produced using the
capillary column method is not theoretically appropriate because the density of the
galunggung sand specimen in the column of the test equipment is different at each
height. Based on the equilibrium time curve form, the water content has reached
equilibrium on day 3. Then, the equilibrium time curve form from the SEEP/W
application seems to be theoretically appropriate and the water content values from
laboratory tests are tangent. This indicates that the modeling carried out from the
SEEP/W application is in accordance with the data obtained from testing in the
laboratory. Thus, the water content value on the equilibrium time curve from the
modeling results for the waiting time apart from testing data in the laboratory can
be used as an estimated water content value. |
|---|