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4698112 
Journal Article 
Rheological behaviors of epoxy asphalt binder in comparison of base asphalt binder and SBS modified asphalt binder 
Kang, Y; Song, M; Pu, L; Liu, T 
2015 
Yes 
Construction and Building Materials
ISSN: 0950-0618
EISSN: 1879-0526 
76 
343-350 
WOS:000348879600035 
Epoxy asphalt binder is a completely different thermosetting paving material from traditional modified asphalt binders. To character its properties, standard test method of tensile properties for plastics is borrowed. However, the correlations within tensile properties and road-paving properties like i.e. temperature stability and durability are not clear. In this paper, dynamic shear rheometer (DSR) was used to test its rheological performances in comparison of base asphalt binder and SBS modified asphalt binder. Fluorescence microscope was used to trace the microscope structure evolution process, and Scanning Electron Microscope (SEM) to observe the fracture profile of epoxy asphalt at -40 degrees C. Results indicate that creep strains of epoxy asphalt are 10(-7) to 10(-2) times as much as that of base asphalt, and 10(-6) to 10(-2) times of Styrene-Butadiene-Styrene (SBS) modified asphalt. Creep and recovery experiments find that epoxy asphalt is completely elastic after 100 loading-unloading circles, which implies that epoxy asphalt has a remarkable anti-rutting potential, on the contrary, base asphalt binder and SBS modified asphalt binder are in the state of Newton liquids under the same experimental conditions. Temperature sweep by DSR shows that epoxy asphalt has a superior thermal stability from -30 degrees C to 120 degrees C, which is verified by the two transition peaks at -22 degrees C and 28 degrees C obtained from dynamic mechanical thermal analyzer (DMTA). High performances of epoxy asphalt binder are attributed to crosslinked bimodal networks during thermal cure which were observed by fluorescence microscope. These experiments qualify the excellent properties of epoxy asphalt binder from the viewpoint of rheology, and the consistency within the rheological tests verify the feasibility of using temperature sweep to character the temperature stability of epoxy asphalt binder. (C) 2014 Elsevier Ltd. All rights reserved. 
Epoxy asphalt; Modified asphalt; Rheology; Bimodal networks