ANALYSIS OF COARSE AGGREGATE CONTENT FROM RECLAIMED ASPHALT PAVEMENT OF WARM MIX ASPHALTIC CONCRETE BINDER COURSES (AC-BC) ON RESILIENT MODULUS AND FATIGUE TEST
The use of pavement recycling technology or Reclaimed Asphalt Pavement (RAP) is one of the innovations in reducing on new materials in the construction of new roads and on road maintenance. RAP components consist of asphalt and aggregate. Aggregate in RAP material has undergone physical changes a...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/58302 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The use of pavement recycling technology or Reclaimed Asphalt Pavement (RAP) is one of the
innovations in reducing on new materials in the construction of new roads and on road
maintenance. RAP components consist of asphalt and aggregate. Aggregate in RAP material
has undergone physical changes and the size has become smoother as the RAP material has
received traffic loads. Improvements to the increase in the addition of coarse aggregate
material are needed in the gradation of RAP material so that specifications can be achieved.
Asphalt in RAP material has also been oxidized while serving traffic so that the asphalt
becomes harder. RAP asphalt requires to restore asphalt properties, that is using a
rejuvenator. The warm RAP mixture and the material have something in common, namely that
they require improvement by reducing asphalt viscosity. Evotherm additive is used as an
asphalt softener as a warm mixture and as a rejuvenator in RAP asphalt. The RAP materials
were obtained from three different locations, those are Cikampek Toll Road, Purbaleunyi Toll
Road, and Tangerang-Merak Toll Road. The RAP mixture used was WMA AC-BC at the
proportion of 30% RAP material, 70% of addition of new material and rejuvenators. The
performance of the WMA-RAP affect is known by empirical testing, that is Marshall,
mechanistic testing that is Resilient Modulus by UMATTA and fatigue resistance test by four
points loading control strain method. The most addition of coarse material proportions was
carried out on the A2 34.92%, the A1 mixture 7.41% and the A3 mixture 6.18%. In the use of
RAP material, a WMA-RAP with the addition of a small amount of coarse material has a better
performance (A1,3) compared to a mixture that requires improvement in gradation with the
addition of more coarse aggregate (A2). This is indicated by the fulfillment of the stiffness by
empirically and mechanistically. On fatigue test, it was found that the A1, A3 mixture had a
fatigue life that was not much different from the A0 control mixture.
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