http://orcid.org/0000-0002-0125-3128
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Abstract
Ageing is a renowned phenomenon for pavement engineers that can substantially affect the durability and long-term performance of flexible pavements. Several factors affect the mechanism of age-related changes, including asphalt cement’s chemical composition, mix properties, and environmental conditions. Most of the laboratory accelerated age hardening procedures are trying to simplify conditioning by considering heat as the main affecting factor and neglecting the others, such as humidity, precipitation, and solar radiation. This research aims to examine the validity of such an assumption and evaluate the effect of photo-oxidation, moisture and precipitation on the chemical and rheological properties of the asphalt cement and mix.
In this research, a plant produced asphalt mix was selected and subjected to four different age conditioning procedures including Long-Term Oven Ageing procedure (AASHTO R30), Atlas® Whetherometer™, and using a bespoke chamber by applying dry and wet cycles of solar radiation and water conditioning. After running the Complex Modulus test on unconditioned and conditioned asphalt mix samples, asphalt cement was recovered and subjected to chemical and rheological analysis. The 2S2P1D model was employed to develop Complex Modulus and Phase Angle master curves. Results of this research showed that concerning chemical changes, extended heating at excessively high temperatures would result in different chemical products of oxidation as compared to solar radiation technique in terms of Carbonyl and Sulfoxide Indices. Moreover, it was observed that the extended heating procedure resulted in less stiffening at the low-temperature range in comparison with solar radiation. From the results of this research, it can also be concluded that water plays a vital role in the age conditioning procedure using solar radiation.
Acknowledgement
Appreciation is extended to the Ontario Ministry of Transportation (MTO) for funding this research through the Highway Infrastructure Innovations Funding Program (HIIFP). Special thanks to Coco Asphalt Engineering and their knowledgeable personnel for technical support with FTIR and Atlas Weatherometer testing. Our gratitude is also extended to Steed & Evans Ltd. for their help with collection of plant-mixed loose asphalt and virgin binder that was utilised in this research project.
ORCID
Yashar Azimi Alamdary http://orcid.org/0000-0002-0125-3128