Abstract
This paper evaluates the mechanical properties and performance of the fine aggregate matrix (FAM) existing within full reclaimed asphalt pavement (RAP) asphalt mixtures, in terms of their rheological and fatigue deterioration properties. The RAP material was produced in the laboratory to control its properties and to reduce the effects of variability associated with these materials. Four FAM mixtures were analysed, including a virgin hot mix asphalt, a 100%RAP, and two mixtures containing 50% RAP in combination with virgin materials using different penetration grade virgin binders. The analysis of the deterioration properties was based on the application of a fracture model that incorporates the viscoelastic properties of the material, the quality of the adhesive bonds developed between the aggregates and the corresponding bitumen present in each mixture, and the rate at which the material dissipates energy when subjected to cycling loading. The input parameters for this model include the results obtained from dynamic mechanical analysis and surface free energy tests. In general, the results showed that the incorporation of 50% RAP content increased the stiffness of the final mixtures, as expected. However, this hardening effect did not result in mixtures with inferior fatigue performance of the FAM present in the full mixtures, at the applied strain level.
Highlights
Reclaimed Asphalt Pavement (RAP) materials are essentially flexible pavements that have reached the end of their service lives and are reclaimed to be used as part of new or rehabilitated road structures
Concerns related to the contribution of the hardened bitumen from RAP in the final mixture performance and durability in the field have limited the production of new Hot Mix Asphalt (HMA) with higher amounts of this material
This study evaluated three aspects to quantify the effect of high-RAP content on the rheological and fatigue deterioration properties of two Fine Aggregate Matrix (FAM) mixtures containing 50%RAP material in combination with virgin materials, one FAM mixture containing 100% RAP mixture and an unmodified control FAM-HMA, which was included for comparison
Summary
Reclaimed Asphalt Pavement (RAP) materials are essentially flexible pavements that have reached the end of their service lives and are reclaimed to be used as part of new or rehabilitated road structures. There is a common belief that the use of this material can lead to poor field performance especially because the increased brittleness could negatively affect its fatigue and thermal cracking resistance This belief has been supported by some authors (Bonaquist, 2005; Daniel, Pochily, & Boisvert, 2010; McDaniel, Shah, Huber, & Gallivan, 2007), and refuted by others (Hajj, Sebaaly, & Shrestha, 2007; Maupin, Diefenderfer, & Gillespie, 2008; Tabakovi, Gibney, Mcnally, & Gilchrist, 2010). These issues are related to the adhesion characteristics that the old, hardened bitumen from RAP develops with the virgin bitumen and with the new aggregates
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