Evaluation of the effects of asphalt binder aging degree on the curing, compatibility, and mechanical behaviors of epoxy asphalt binders

•The viscosity growth rate of the epoxy asphalt increased with asphalt aging degree.•The epoxy asphalt binder manufactured with a more severe asphalt aging degree presented a higher conversion degree within the same curing time.•The aggregation behavior of the asphalt phase became increasingly obvio...

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Bibliographic Details
Published in:Construction & building materials 2023-05, Vol.377, p.131131, Article 131131
Main Authors: Cheng, Long, Zhang, Lei, Zhang, Fenglei, Zhang, Dingyi, Ma, Yang
Format: Article
Language:English
Subjects:
Aging degree
Compatibility behavior
Curing process
Epoxy asphalt binders
Recycling asphalt pavement
Rheological characteristics
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Summary:•The viscosity growth rate of the epoxy asphalt increased with asphalt aging degree.•The epoxy asphalt binder manufactured with a more severe asphalt aging degree presented a higher conversion degree within the same curing time.•The aggregation behavior of the asphalt phase became increasingly obvious with the aging degree of asphalt went deepening.•The integrity of epoxy asphalt network structure pronounced affect its viscoelastic behavior. The application of epoxy asphalt binder in hot mix plant recycling for reclaimed asphalt pavement (RAP) can significantly increase the utilization rate of waste material on the premise of ensuring the service quality of the asphalt pavement. However, the development of epoxy asphalt binder modified RAP is hindered by the limited understanding of the effect of aging degree and types variability of asphalt binder in RAP on the properties of epoxy asphalt binder. Therefore, short-, long- and ultra-long- term aging tests of base asphalt and SBS modified asphalt binder were conducted through rolling thin film oven (RTFO), pressure aging vessel (20 h and 40 h) tests to obtain the asphalt binders with different aging extent, and then the binders were mixed with two epoxy systems to prepare epoxy asphalt binders, respectively. Next, the effects of asphalt binders aging degree on curing, compatibility, and mechanical behaviors characteristics of epoxy asphalt binders were investigated from chemical, microscopic, mechanical, and rheological perspectives based on Brookfield viscosity, Fourier transform infrared (FTIR), laser confocal fluorescence microscopy (LSCM), Shore hardness, direct tensile, strain sweep, and frequency sweep tests. The viscosity results indicated that a higher asphalt binder aging degree brought about a faster increase in the viscosity of epoxy asphalt binders. The construction allowable time of type-A epoxy asphalt binder of at least 3.5 h was higher than that of type-B. The conversion degree model constructed with the 917 cm−1 peak area as a parameter showed that the epoxy asphalt binder prepared by the asphalt binder with a more severe aging degree presented a higher conversion degree within the same curing time since the reaction space between epoxy and curing agent reactive groups was compressed by aggregated aged asphalt binder. The LSCM and Shore hardness results suggested that the aging asphalt binders induced the phase separation between asphalt and epoxy resin. With the asphalt binders aging, the d
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2023.131131