Abstract
The durability of asphaltic mixtures, in addition to traffic loading, is greatly influenced by the extremes environmental parameters. For instance, at higher temperatures, bitumen becomes soft, thereby reducing the stiffness of asphalt mixtures and making them vulnerable to rutting. On the other hand, at lower temperatures, the stiffness of bitumen is increased, reducing the flexibility of asphaltic concrete and rendering it prone to fatigue failure. Therefore, this evaluation is an extensive research study on the durability of binder and asphalt mixture with their phenomena. Besides that, this paper intends to delve into the various testing methods and measures adopted to evaluate aging and slowing it down. It also presents a critical review of these methods and proposes a future course of action to better address aging issues. According to the evaluation, the behavior of bitumen on the basis of its source varies; when it is mixed with bitumen modifiers, aggregates, and other filler materials, its behavior becomes even more complex. Hence the understanding of the phenomenon of aging is important and the significance cannot be overemphasized. Extensive research work has been done over the last seven decades to evolve the understanding of short- and long-term aging and to improve the durability of asphaltic mixtures. Generally, the aging of bitumen under the influence of both environment and traffic is irreversible as well as inevitable. Apart from entailing hefty maintenance budgets, it remains a challenge to the researchers to slow down aging.
Highlights
The durability of a road surface material is inevitably affected by environmental factors, such as precipitation, temperature, air, and ultraviolet rays [1]
The effect of gradation of aggregates on bitumen aging was investigated in a study in which continuous and gapgraded mixtures, the loose asphalt mixtures, were aged at 135°C prior to compaction [53]
Bending Beam Rheometer (BBR) results showed that the stiffness values of Non-modified Nanoclay (NMN) and Polymer modified Nanoclay (PMN) modified asphalt binders’ approach to that of control asphalt binder
Summary
The durability of a road surface material is inevitably affected by environmental factors, such as precipitation, temperature, air, and ultraviolet rays [1]. Rises in temperatures decrease the stiffness of bitumen and make pavement more vulnerable to rutting. Lower temperatures can increase the stiffness of bitumen and paves the way to inducing fatigue failure in pavements. Age hardening is predominantly associated with the loss of volatile constituents in bitumen during 1) mixing and construction stages, and 2) life span of pavement through progressive oxidation of the bitumen. The former is designated as short-term aging, while the latter as long-term aging.
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