Abstract
In-depth understanding of the synergetic effect between the various incorporating constituents in asphalt binders (e.g., polymers, fillers) is needed to design durable paving materials with desired properties. In this research, the focus was first on the effect of the reactivity of fillers on the evolution of adhesive strength between stone aggregates and epoxy modified asphalt mastics during the epoxy polymerization. Uniaxial tensile tests were performed on different combinations of fillers and binders with and without the epoxy-based polymer, and at different modification levels. Based on the results of the tensile tests, the increase of the adhesive strength of mastic with aggregates was generally lower when reactive filler particles (i.e., hydrated lime) were added than of epoxy binders with non-reactive filler. In other words, the non-reactive fillers did not influence the adhesion process and were thus selected for the next step studies on aging. The chemo-mechanical changes of epoxy modified asphalt mastics were analysed after pressure aging vessel and oven-conditioning after various aging times by means of Fourier transform infrared spectroscopy and dynamic shear rheometer. Less sulfoxides formed and higher modulus levels were measured with increasing the epoxy polymer in mastics over oven- and PAV-aging conditions. Due to the pressure difference, the rate of modulus increases and phase angle decrease was higher when the materials were conditioned in PAV than in oven.
Highlights
Asphalt binder, which is a petroleum derivative, is the most widely used binding material in pavement structures
Less sulfoxides formed and higher modulus levels were measured with increasing the epoxy polymer in mastics over oven- and pressure-aging vessel (PAV)-aging conditions
It is shown that the ability of EBF0, EBF20 and EBF50 to build-up interfacial bonding with sandstone is similar for both filler types (i.e., RF and NRF)
Summary
Asphalt binder, which is a petroleum derivative, is the most widely used binding material in pavement structures. The modification of asphalt binders with epoxy-based polymers is well-recognized, among. A general lack of knowledge exists about the impact of epoxybased polymers on the long-term oxidative aging performance of asphaltic materials. No research has been done on the influence of different filler types on the efficiency of epoxy-based polymers as added agents for long-lasting asphalt pavements. Different phenomena take place when reactive polymers are incorporated in asphalt and their contribution to long-term oxidative aging resistance could be linked with other reactive constituents in asphalt, such as fillers. Oxidative aging is accompanied by stiffening (i.e., modulus increase) and embrittlement of the binder, of which the low temperature changes in Materials and Structures (2020) 53:120 general contribute to the deterioration of asphalt pavements
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