Investigating the effects of nano Al2O3 on high and intermediate temperature performance properties of asphalt binder

The present study explores the use of nano Al 2 O 3 as a potential asphalt binder modifier. The study investigates the effects of different concentrations (0%,0.5%,1% and 2% by weight of the asphalt binder) of nano Al 2 O 3 on various properties of the asphalt binders. XRD analysis is used to study...

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Bibliographic Details
Published in:Road materials and pavement design 2021-11, Vol.22 (11), p.2604-2625
Main Authors: Bhat, Faheem Sadiq, Mir, Mohammad Shafi
Format: Article
Language:English
Subjects:
Aging
Aluminum oxide
Asphalt
Binders (materials)
creep resistance
Creep tests
Fatigue life
Fatigue tests
High temperature
intermediate-temperature performance
MSCR
Parameter modification
Performance evaluation
Recovery
Shear viscosity
shear-thinning behaviour
Stiffness
Superpave rutting parameter
Temperature
Viscosity
zero shear viscosity
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Summary:The present study explores the use of nano Al 2 O 3 as a potential asphalt binder modifier. The study investigates the effects of different concentrations (0%,0.5%,1% and 2% by weight of the asphalt binder) of nano Al 2 O 3 on various properties of the asphalt binders. XRD analysis is used to study the amorphous/crystalline nature of the base asphalt binder and nano Al 2 O 3 modified asphalt binder. The influence of different temperatures and strain rates on the viscosity of the asphalt binder is evaluated. It was seen that the asphalt binder showed a shift from Newtonian behaviour to non-Newtonian behaviour upon the addition of nano Al 2 O 3 . The rutting evaluation of the asphalt binders was carried out by utilising different approaches like Superpave rutting parameter, multiple stress creep and recovery test, zero shear viscosity, and creep test. Furthermore, intermediate-temperature performance and aging resistivity of the modified asphalt binders was also evaluated. Results showed that the addition of nano Al 2 O 3 enhances the stiffness of the asphalt binder and improves its recovery abilities. The modified asphalt binder was found to perform well under varying stresses and sustained loading and hence showed improved permanent deformation characteristics. Fatigue performance was evaluated utilising Superpave fatigue parameter and time sweep tests, and the nano Al 2 O 3 modified asphalt binders showed improved fatigue life. The addition of nano Al 2 O 3 also leads to an improvement in the aging resistance of the asphalt binder. The study shows an overall improvement in high temperature, intermediate temperature, and aging resistance of the asphalt binders using nano Al 2 O 3 as an asphalt binder modifier.
ISSN:1468-0629
2164-7402
DOI:10.1080/14680629.2020.1778509