THE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION
Using modified asphalt in the flexible pavement is one alternative solution to overcome the numerous issues of asphalt mix damage. Modified asphalt is a technology that alters the rheological properties of asphalt by adding certain materials such as polymers. Performance Grade (PG) asphalt is one...
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id-itb.:738012023-06-23T14:22:01ZTHE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION Imam Rahanda, Jaka Indonesia Theses AC-BC, DSR, LDPE 6% Asphalt, Marshall Immersion, ITS, WTM, Fatigue Life, 4PB INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/73801 Using modified asphalt in the flexible pavement is one alternative solution to overcome the numerous issues of asphalt mix damage. Modified asphalt is a technology that alters the rheological properties of asphalt by adding certain materials such as polymers. Performance Grade (PG) asphalt is one of the developments in modified asphalt based on asphalt performance. This research involves mixing LDPE plastic (plastomer) into PG76 Asphalt with SBS content (elastomer). In addition to comparing the rheology of LDPE Asphalt (LDPE-modified PG76 Asphalt) and PG76 Asphalt through dynamic shear rheometer (DSR) testing, this research also compares the resistance of asphalt mixtures through Marshall Immersion, Indirect Tensile Strength (ITS), and Wheel Tracking tests using a Wheel Tracking Machine (WTM). AC-BC gradation and Marshall Method were selected as the type of mixture and the method for determining the OAC. This research also compares the fatigue cracking resistance of both types of asphalt mixtures using a Four-Point Bending (4PB) apparatus. The DSR test results indicate that adding 6% LDPE plastic to PG76 Asphalt improves the performance grade (PG) to PG82 Asphalt. LDPE 6% Asphalt Mixture achieves a value of 99.79% for the Residual Strength Index (RSI) and dynamic stability values of 18,375 and 26,250 track/mm (dry and wet conditions), which are higher than those of PG76 Asphalt Mixture with RSI values of 98.39% and dynamic stability values of 9,750 and 10,500 track/mm (dry and wet conditions). The ITS test results yield a Tensile Strength Ratio (TSR) value of 83.51% for the LDPE 6% Asphalt Mixture, lower than the TSR value of 97.77% for the PG76 Asphalt Mixture. In the fatigue test with a strain of 600??, LDPE 6% Asphalt Mixture exhibits a shorter fatigue life, while at a strain of 500??, it shows a longer fatigue life compared to the PG76 Asphalt Mixture. text |
| institution |
Institut Teknologi Bandung |
| building |
Institut Teknologi Bandung Library |
| continent |
Asia |
| country |
Indonesia Indonesia |
| content_provider |
Institut Teknologi Bandung |
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| language |
Indonesia |
| description |
Using modified asphalt in the flexible pavement is one alternative solution to
overcome the numerous issues of asphalt mix damage. Modified asphalt is a
technology that alters the rheological properties of asphalt by adding certain
materials such as polymers. Performance Grade (PG) asphalt is one of the
developments in modified asphalt based on asphalt performance.
This research involves mixing LDPE plastic (plastomer) into PG76 Asphalt with
SBS content (elastomer). In addition to comparing the rheology of LDPE Asphalt
(LDPE-modified PG76 Asphalt) and PG76 Asphalt through dynamic shear
rheometer (DSR) testing, this research also compares the resistance of asphalt
mixtures through Marshall Immersion, Indirect Tensile Strength (ITS), and Wheel
Tracking tests using a Wheel Tracking Machine (WTM). AC-BC gradation and
Marshall Method were selected as the type of mixture and the method for
determining the OAC. This research also compares the fatigue cracking resistance
of both types of asphalt mixtures using a Four-Point Bending (4PB) apparatus.
The DSR test results indicate that adding 6% LDPE plastic to PG76 Asphalt
improves the performance grade (PG) to PG82 Asphalt. LDPE 6% Asphalt Mixture
achieves a value of 99.79% for the Residual Strength Index (RSI) and dynamic
stability values of 18,375 and 26,250 track/mm (dry and wet conditions), which are
higher than those of PG76 Asphalt Mixture with RSI values of 98.39% and dynamic
stability values of 9,750 and 10,500 track/mm (dry and wet conditions). The ITS
test results yield a Tensile Strength Ratio (TSR) value of 83.51% for the LDPE 6%
Asphalt Mixture, lower than the TSR value of 97.77% for the PG76 Asphalt
Mixture. In the fatigue test with a strain of 600??, LDPE 6% Asphalt Mixture
exhibits a shorter fatigue life, while at a strain of 500??, it shows a longer fatigue
life compared to the PG76 Asphalt Mixture. |
| format |
Theses |
| author |
Imam Rahanda, Jaka |
| spellingShingle |
Imam Rahanda, Jaka THE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION |
| author_facet |
Imam Rahanda, Jaka |
| author_sort |
Imam Rahanda, Jaka |
| title |
THE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION |
| title_short |
THE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION |
| title_full |
THE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION |
| title_fullStr |
THE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION |
| title_full_unstemmed |
THE ANALYSIS OF AC-BC RESISTANCE USING PG76 ASPHALT MODIFIED WITH PLASTIC WASTE (LDPE) TO WATER IMMERSION |
| title_sort |
analysis of ac-bc resistance using pg76 asphalt modified with plastic waste (ldpe) to water immersion |
| url |
https://digilib.itb.ac.id/gdl/view/73801 |
| _version_ |
1822279694224982016 |