Sulfur Polymer to Develop Low-Carbon Reclaimed Asphalt Pavements
Mohammad Doroudgar, Mohammadjavad Kazemi, Shadi Saadeh, Mahour Parast, Elham H. Fini

TL;DR
A low-carbon sulfur polymer is developed to improve the cracking resistance of asphalt mixtures containing reclaimed materials.
Contribution
A novel low-carbon sulfur-based polymer is introduced as a sustainable modifier for asphalt mixtures with reclaimed content.
Findings
The sulfur polymer improved cracking resistance in asphalt mixtures with 25% RAP under various aging conditions.
The polymer did not negatively affect rutting or moisture damage resistance in asphalt mixtures.
Replacing 10% of petroleum binder with the sulfur polymer reduced global warming potential by about 11%.
Abstract
The incorporation of reclaimed asphalt pavement (RAP) offers significant environmental benefits; however, its use is often limited by an increased susceptibility to cracking due to the insufficient elasticity of the severely aged RAP binder. This limitation is conventionally mitigated using polymers such as styrene–butadiene styrene, which, despite their effectiveness, are costly and carbon intensive. This paper introduces a low-carbon sulfur-based ternary polymer developed through TiO2-catalyzed inverse vulcanization of elemental sulfur to be used as a modifier to address the abovementioned challenge at the asphalt mixture level. The sulfur polymer containing waste cooking oil and metal-rich biochar was incorporated into hot-mix asphalt having 25% RAP. The mixture specimens were evaluated before and after accelerated thermal and ultraviolet aging. Cracking resistance was measured using…
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Taxonomy
TopicsAsphalt Pavement Performance Evaluation · Structural mechanics and materials · Synthesis and properties of polymers
