Abstract
Implementation of additives to the asphalt binder can enhance the overall physical properties of the modified asphalt concrete. In the present assessment, an attempt has been made to use 2 % of silica fumes and 4 % of fly ash class F for modification of asphalt binder in wet process. Asphalt concrete wearing course mixtures have been prepared and compacted by roller in the laboratory. The beam specimens of 400 mm length and 50 mm height and 63 mm width were extracted from the slab samples. The specimens were subjected to the four-point repeated flexural bending beam test. The flexural stiffness was calculated under three constant micro strain levels of (250, 400, and 750). The fatigue life was monitored in terms the number of load repetitions to reach the required reduction in stiffness. It was concluded that the flexural stiffness increases by (11, and 15) %, (17.7, and 63.6) %, (57.2, and 65) % when 2% of silica fumes or 4 % of fly ash are implemented and the specimen’s practices 750, 400, and 250 microstrain levels respectively. However, the fatigue life of asphalt concrete beam specimens increases by (40, and 72.8) %, (115, and 220.6) %, (46, and 94.6) % when 2% of silica fumes or 4 % of fly ash are implemented and the specimen’s practices 750, 400, and 250 microstrain levels respectively. It is recommended to use modified binder with fly ash and silica fumes in asphalt concrete to enhance the fatigue life and stiffness.
Highlights
Adhikari and You, [1] used beam fatigue test to evaluate the fatigue life and flexural stiffness of the asphalt concrete beam specimens
It was concluded that the flexural stiffness increases by (11, and 15) %, (17.7, and 63.6) %, (57.2, and 65) % when 2% of silica fumes or 4 % of fly ash are implemented and the specimen’s practices 750, 400, and 250 microstrain levels respectively
It was reported that fatigue life declines when the asphalt concrete beam was tested with high loading frequency and high strain level
Summary
Adhikari and You, [1] used beam fatigue test to evaluate the fatigue life and flexural stiffness of the asphalt concrete beam specimens. The addition of different fillers such as cement, fly ash, hydrated lime, silica fume, and bag-house fines are known to increase the rutting resistance of asphalt concrete as stated by Bahia et al, [9]. The aim of the present assessment is to implement 2 % of silica fumes and 4 % of fly ash class F for modification of asphalt binder in wet process The influence of such additives on flexural stiffness and fatigue life will be assessed. The four-point repeated flexural bending beam test was implemented according to AASHTO T321, [18] to identify the impact of additives on the fatigue life and flexural stiffness of asphalt concrete beam specimens at intermediate pavement operating temperature of 20 °C and under constant strain level. Three different Microstrain levels of 250, 400, and 750 were tried to simulate various modes of loading in the field
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