Abstract

With the increasing traffic loading and changing climatic conditions, there is a need to use novel superior performing pavement materials such as high-modulus asphalt binders and asphalt mixtures to mitigate field distress such as rutting, cracking, etc. This laboratory study was thus conducted to explore and substantiate the usage of Rubber Polymer Composite Modifier (RPCM) for high-modulus asphalt binder modification. The base asphalt binder used in the study comprised A-70# Petroleum asphalt binder with RPCM dosages of 0.25%, 0.30%, 0.35%, 0.40% and 0.45%, separately. The laboratory tests conducted for characterizing the asphalt binder rheological and morphological properties included the dynamic mechanical analysis (DM), temperature-frequency sweep in the dynamic shear rheometer (DSR) device, bending beam rheometer (BBR), and florescence microscopic (FM) imaging. The corresponding test results exhibited satisfactory compatibility and potential for using RPCM as a high-modulus asphalt binder modifier to enhance the base asphalt binder’s rheological properties, both with respect to high- and low-temperature performance improvements. For the A-70# Petroleum asphalt binder that was evaluated, the optimum RPCM dosage was found to be 0.30–0.35%. In comparison to styrene–butadiene–styrene (SBS), asphalt binder modification with RPCM exhibited superior high-temperature rutting resistance properties (as measured in terms of the complex modulus and phase angle) and vice versa for the low-temperature cracking properties. Overall, the study beneficially contributes to the literature through provision of a reference datum toward the exploratory usage of RPCM for high-modulus asphalt binder modification and performance enhancements.

Highlights

  • The continuous economic development and rapid evolution of vehicular transportation as the main means of human travel and goods movement have led to increased traffic volume and heavier truck axle loads on the road network

  • This laboratory study was conducted to investigate the effects of different dosages of Rubber Polymer Composite Modifier (RPCM) on the rheological properties and morphology of high-modulus asphalt binders

  • The base asphalt binder used comprised A-70# Petroleum asphalt binder with the RPCM dosages ranging from 0.25% to 0.45%, respectively

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Summary

Introduction

The continuous economic development and rapid evolution of vehicular transportation as the main means of human travel and goods movement have led to increased traffic volume and heavier truck axle loads on the road network. Resource challenges, and climate change, this has undesirably led to the induction of widespread distresses, such as rutting, cracking, pot-holing, raveling, etc., on asphalt pavements [1]. With this increased traffic loading and changing climatic (environmental) conditions, traditional asphalt mixtures may no longer be able to meet the current pavement design specifications and requirements against such heavy traffic loading, with respect to the truck axle weights [2]. Use of high-modulus asphalt binders is another means to produce stiff mixtures with superior rutting resistance performance [5]

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