PREDICTION OF REMAINING SERVICES LIFE AND FAILURE LOCATION OF FLEXIBLE PAVEMENT USING INDONESIAN ROAD MANAGEMENT SYSTEM (IRMS) V.3 AND AASHTO 1993 METHOD(CASE STUDY : BTS. PROV. JAMBI - PENINGGALAN ROAD)
An increase in traffic load per year is one of the factors causing a decrease in pavement performance, so it is important to evaluate the pavement structure by predicting the Remaining Service Life (RSL) of the pavement and identifying the failure location of the pavement’s layering system. Indo...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/73096 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | An increase in traffic load per year is one of the factors causing a decrease in
pavement performance, so it is important to evaluate the pavement structure by
predicting the Remaining Service Life (RSL) of the pavement and identifying the
failure location of the pavement’s layering system.
Indonesia has implemented the Indonesian Road Management System (IRMS) V.3
program as a tool in road programming where there is an approach to predict RSL
values based on structural and functional conditions (if structural data is not
available) in IRMS V.3. Another method that can be used as a guide in predicting
RSL values is AASHTO 1993 so this research aims to compare the RSL values of
several methods on road maintenance requirements. By predicting the RSL value,
Road Users will not experience road failure beforehand so that the RSL can be a
parameter in making decisions related to road preservation which is also related
to maintenance costs.
In the structural evaluation of pavements, it is important to identify the failure
location of the pavement’s layering system. Emile Horak developed a method by
utilizing the deflection bowl parameters in determining the structural conditions of
flexible pavements. With this method, the failure location in the pavement layer
system can be identified thereby increasing the accuracy of road maintenance in
Indonesia.
The results showed that the predicted remaining services life based on functional
data resulted in the most pessimistic and smaller remaining life compared to
predictions using structural data. This is caused by the roughness parameter which
is more describes surface conditions without really knowing the conditions in the
pavement structure.
Prediction of the remaining services life using the IRMS V.3 method based on
structural data resulted in the most optimistic and higher remaining life compared
to the AASHTO 1993 method. This is due to the prediction of the remaining services life using the IRMS V.3
method does not consider subgrade parameters while subgrade soil is the main
factor for the bearing capacity of the pavement structure.
The IRMS V.3 method based on structural data and the AASHTO 1993 method are
not sensitive to road surface irregularities so that the two methods cannot trigger
pavement surface maintenance. The AASHTO 1993 method is the most optimal
method for use in flexible pavement maintenance decision trees. This is due to
decision making starting with the roughness value so that the shortcomings of the
AASHTO 1993 method, which is not sensitive to surface roughness are resolved
with a decision tree.
According to Emile Horak's method, the failure location in the pavement’s layer
system mostly occurs in the subgrade. On the road segment under review, the
subgrade that is excluded in the calculation of the prediction of the remaining
services life of the pavement using the IRMS V.3 method will gives the better results
if it include the subgrade characteristics in predicting the remaining services life.
A high RSL value in a segment does not necessarily mean lower maintenance costs.
The decision-making method for the type of maintenance of flexible pavement in
IRMS V.3 is not only based on the RSL value, but also considers the IRI value. RSL
as one of the factors in making decisions on the flexible pavement maintenance in
IRMS V.3 only applies to roads with an IRI value of < 12 m/km or roads with sound
to warning conditions. Roads with an IRI value of ? 12 m/km or roads with severe
conditions will undergo maintenance in the form of reconstruction without
considering the RSL value. |
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