Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Performance Deterioration of SBS-Modified Asphalt Mix: Impact of Elevated Storage Temperature and SBS Concentration of Modified Binder
https://orcid.org/0000-0002-7002-0993
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.
Performance Deterioration of SBS-Modified Asphalt Mix: Impact of Elevated Storage Temperature and SBS Concentration of Modified Binder
https://orcid.org/0000-0002-7002-0993
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.
Performance Deterioration of SBS-Modified Asphalt Mix: Impact of Elevated Storage Temperature and SBS Concentration of Modified Binder
https://orcid.org/0000-0002-7002-0993
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.
Performance Deterioration of SBS-Modified Asphalt Mix: Impact of Elevated Storage Temperature and SBS Concentration of Modified Binder
J. Mater. Civ. Eng.
Islam, SK Sohel (Autor:in) / Singh, Sumit K. (Autor:in) / R.N., GD Ransinchung (Autor:in) / Ravindranath, Sham S. (Autor:in)
01.03.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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