Abstract
The use of recycled asphalt pavement (RAP) in pavement construction reduces the project cost and helps in conserving the naturally occurring aggregates. To incorporate RAP in hot mix asphalt, it is vital to know the amount and quality of the reclaimed binder. Three new asphalt binders were selected for this investigation. RAP material from one source was blended in different proportions with VG-10 and VG-30. Penetration, softening point, G */sin δ, G * sin δ and binder fatigue life Nf (from Linear Amplitude Sweep test) values of different blends were compared. The milled RAP aggregate gradation varied from source to source due to factors such as the gradation of the mix used in the existing layer, milling method and processing of RAP material. This variability controls the use of higher proportions of RAP in new mixes. To investigate the effect of RAP gradation on the proportion of RAP that can be used in the new mix, RAP sources with different gradation (three dense and two gap gradations) were selected. The proportion of RAP that can be used for preparing mixes with these gradations varied significantly with the source of RAP, and the target gradation. In most cases, it was found that allowable RAP percentages are smaller for the gap gradations compared to those permitted for dense gradations. The proportion of RAP in a mix can be increased by selecting an appropriate gradation for a RAP source or by using a suitable RAP source for a given gradation.
Highlights
Considering that major pavement construction projects in India involve new carriageways, rehabilitation and reconstruction of existing pavements, recycling of the asphalt material needs to be seriously considered
This study evaluated the effect of recycled asphalt pavement (RAP) binder on the stiffening of the binder and rutting performance and fatigue characteristics and on the maximum proportion of RAP that can be used in mixes of different gradation mixes
The results indicate that higher RAP contents enhanced rutting resistance and reduced fatigue resistance as expected
Summary
Considering that major pavement construction projects in India involve new carriageways, rehabilitation and reconstruction of existing pavements, recycling of the asphalt material needs to be seriously considered. Though a very recent practice in India, the utilization of RAP in bituminous layers has been practiced for several years in different countries, such as the USA’s majority of State transportation departments allowing RAP in HMA mixtures, with the 2007 average national usage rate estimated to be 12 percent [1]. The number of US and Canadian state agencies allowing RAP usage in surface course layers up to 10, 19, 29, and above 30% are 43, 35, 20, and 5, respectively [1]. The number of state agencies allowing RAP usage in base course layers (bi-tuminous mixes) up to 10, 19, 29, and above 30 % are 45, 43, 36, and 15, respectively [1]
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