Litcius/Paper detail

Performance Deterioration of SBS-Modified Asphalt Mix: Impact of Elevated Storage Temperature and SBS Concentration of Modified Binder

Sk Sohel Islam, Sumit Singh, GD Ransinchung, Sham S. Ravindranath

2021Journal of Materials in Civil Engineering38 citationsDOI

Abstract

This study elucidates the important role of styrene-butadiene-styrene (SBS) concentration and storage temperature on the extent of property deterioration in SBS-MBs and their corresponding mixes. SBS-MBs with varying SBS content (3%, 4.5%, and 7% by weight) were first stored in closed metal containers at 150°C and 180°C. It was observed that the properties of the SBS-MBs remained stable at 150°C, but erosion was evident when stored at 180°C due to SBS degradation. The conventional, rheological, and morphological analysis demonstrated that the magnitude of property erosion at 180°C strongly depended on the concentration of the SBS polymer. SBS-MB with 4.5% by weight SBS polymer exhibited the maximum deterioration in the properties, while binder with 3% and 7% by weight SBS content showed subdued property erosion at 180°C. Asphalt mixes were prepared using the fresh and stored SBS-MBs with varying SBS content. Results showed a substantial drop in mixes Marshall stability, indirect tensile strength, fatigue, and rut resistance properties after using 4.5% by weight SBS-MBs that were stored at 180°C for 7 days. The consequential outcome of such property deterioration of asphalt mixes may impede pavement stability and service life. Meanwhile, only ≈10% property reduction took place in asphalt mixes that were prepared using 3% and 7% by weight SBS-MBs stored at 180°C. The findings from the study are practically significant while using SBS-MBs for pavement construction. Results also illustrate that the trend in deterioration is similar for SBS-MBs irrespective of grade and source of the base binder.

Topics & Concepts

Materials scienceAsphaltComposite materialUltimate tensile strengthRheologyService lifeRutAsphalt Pavement Performance EvaluationInfrastructure Maintenance and MonitoringInnovative concrete reinforcement materials