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• W2983293624 abstract "Asphalt mastic significantly affects the performance of asphalt mixture. As one of the clean products, activated carbon exhibits better behaviour in engineering and functional performance when adding in the asphalt mixture. In this research, the rheological performance, micro-structure and adhesion mechanism of asphalt mastic modified with activated carbon powder (ACP) instead of mineral powder (MP) were studied. Rheological performance including shear strength, viscosity, low temperature bending and fatigue resistance of asphalt mastic with different ACP substitutions was investigated. A scanning electron microscopy was then used to observe the microscopic morphology of ACP and MP, and their infiltration interface with asphalt binder. Adhesion between fillers and asphalt binder and the water resistance to composite systems were evaluated by applying surface free energy theory. The results show that as the amount of ACP substitution increased, the shear strength, viscosity and low-temperature rheological properties of asphalt mastic were effectively improved. When ACP substitution is 100%, the asphalt mastic has the best fatigue resistance. The incorporation of ACP caused the increase of the absolute value of shift factors, and master curves moved slightly upward. The infiltration effect between ACP and asphalt binder is better than that of MP and asphalt binder. The comparative analysis of energy ratio showed that the water sensitivity of asphalt-ACP systems was less than asphalt-MP systems." @default.
• W2983293624 created "2019-11-22" @default.
• W2983293624 creator A5008501335 @default.
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• W2983293624 date "2019-11-18" @default.
• W2983293624 modified "2023-09-26" @default.
• W2983293624 title "Laboratory research on asphalt mastic modified with activated carbon powder: rheology, micro-structure, and adhesion" @default.
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• W2983293624 doi "https://doi.org/10.1080/14680629.2019.1691043" @default.
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