Influence of Ultraviolet and Oxygen Coupling Aging on Rheological Properties and Functional Group Index of Warm Mix Asphalt Binder

Warm-mixed asphalt (WMA) has the characteristics of low mixing temperature and energy consumption, which makes it more suitable than hot-mixed asphalt for plateau regions (the altitude is above 500 m, and the terrain is relatively flat or has a wide area with certain undulations). However, WMA is su...

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Published inMaterials Vol. 13; no. 19; p. 4216
Main Authors Li, Hailian, Tong, Peipei, Zhang, Xijun, Lin, Xixiong, Li, Bo
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 23.09.2020
MDPI
Subjects
Aging
Asphalt pavements
Carbonyl groups
Carbonyls
Construction
Coupling
Emission standards
Energy consumption
functional group index
Functional groups
High temperature
Infrared radiation
Laboratories
Oxygen
oxygen aging
Plateaus
Radiation
Rheological properties
Rheology
Roads & highways
Shear modulus
Ultraviolet radiation
UV aging
Viscoelasticity
Viscosity
warm mix asphalt
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Summary:Warm-mixed asphalt (WMA) has the characteristics of low mixing temperature and energy consumption, which makes it more suitable than hot-mixed asphalt for plateau regions (the altitude is above 500 m, and the terrain is relatively flat or has a wide area with certain undulations). However, WMA is subject to severe ultraviolet (UV) aging because the UV radiation in plateau areas is more intense. The asphalt’s aging changes its rheological properties inevitably, and thus degrades the asphalt pavement’s performance. Accordingly, the purpose of this paper is to investigate the effect of UV and oxygen coupling aging on WMA’s rheological properties and functional group index. Temperature and frequency sweep tests were performed with a dynamic shear rheometer. At the same time, the functional group index was used as an indicator to compare the changes in the WMA’s infrared spectrum before and after UV aging. The results showed that WMA’s elasticity increased and its viscosity decreased after aging with UV. Under the condition of UV–oxygen isolation, as the aging period increased, the WMA’s rutting factor increased gradually. The degree of improvement was greater than that under the condition of oxygen isolation. In contrast, the time required for the WMA’s complex shear modulus to recover under the condition of UV–oxygen coupling was delayed. An increase in the peak value of infrared spectrum indicates that the WMA has undergone oxygen aging. The presence and change in the carbonyl group reflects the degree of the WMA’s UV aging, and the UV aging condition had a greater effect on the peak values of the carbonyl and sulfoxide groups.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma13194216