Abstract
In asphalt mixtures, stripping occurs when the bond between the asphalt and the aggregate is broken due to the intrusion of water within the asphalt aggregate interface. Warm mix asphalt (WMA) is a technology that allows significant reduction in mixing and compaction temperatures of conventional hot mix asphalt. However, WMA is susceptible to moisture damage due to its lower production temperature. This can cause adhesive failure, hence stripping of asphalt binder from the aggregates. In this study, direct tensile strength (DTS) and indirect tensile strength (ITS) tests were applied to fracture the mixture specimen. Imaging technique was applied on the fractured faces of asphalt mixture to quantify the adhesive failure susceptibility due to the destructive effects of moisture. The results showed that adhesive failure increased with the number of freeze and thaw cycles and mixtures prepared with PG-76 binder exhibited lower adhesive failure compared to PG-64 binder. From fractured ITS samples, most of broken aggregates were found located in the vicinity where the indirect tensile load was applied. On the other hand, high adhesive failure was obtained at the center portion where maximum tensile stresses were developed. The image analysis method employed in this work has proven to be very effective to analyze the deterioration of asphalt mixtures subjected to moisture conditioning.
Highlights
Moisture is a major concern in asphalt pavements and it can exert adverse effects on the performance of hot mix asphalt (HMA) [1,2]
The following sections will describe the results of percent adhesive failure, tensile strength broken aggregates, and statistical analysis and correlations obtained from the results of direct tension test (DTT) and indirect tensile strength (ITS) tests
It was observed that the percent adhesive failure due to moisture conditioning (F-T cycles) was higher in PG-64 compared to PG-76 mixtures
Summary
Moisture is a major concern in asphalt pavements and it can exert adverse effects on the performance of hot mix asphalt (HMA) [1,2]. In the case of WMA, mixing at low temperature might result in insufficient drying of the aggregates, which in turn adversely affects the adhesion between aggregates and asphalt binder [3,4]. Loss of adhesion due to moisture at the asphalt aggregate interface, stripping away the asphalt film ii. Loss of cohesion due to softening of the mastics.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
