Journal of Advances in Civil Engineering and Management (e-ISSN: 2584-1556)

Asphalt concrete mixture for flexible pavement construction is designed to exhibit visco-elastic behaviour under vehicular loading. However, when mineral additives are incorporated into the mixture, a dramatic change in the failure mode is expected. In the present work, an attempt has been made to implement two types of additives (silica fumes and coal fly ash) for modification of asphalt binder using the wet process. Asphalt concrete mixtures were prepared with optimum binder requirements of 4.9 % and subjected to laboratory roller compaction in a slab Mold. Beam specimens were obtained from the slab samples and tested for fatigue life under dynamic flexural stresses at 20℃ environments using three constant strain levels of (750, 400, and 250) microstrain. The fluctuation in the initial flexural stiffness through the visco-elastic failure mode was monitored. It was observed that during the visco-elastic stage of failure, implication of coal fly ash additive for modification of asphalt concrete binder had extended the visco-elastic stage of failure of asphalt concrete by (1.8, 2.3, and 0.66) folds for (250, 400, and 750) microstrain levels respectively as compared with the control asphalt concrete mixture. However, modification of asphalt concrete binder with silica fumes had extended the visco-elastic stage of failure of asphalt concrete by (1.0, 1.0, and 0.25) folds for (250, 400, and 750) microstrain levels respectively as compared with the control asphalt concrete mixture. It was concluded that implication of additives as modifiers of the binder can support flexibility and extend the visco-elastic stage of failure of asphalt concrete.