Performance Control and Mechanism Analysis of DCLR-Based Composite High-Modulus Asphalt Based on Synergistic Modification Effect
Bin Xu, Xinjie Yu, Aodong Gao, Guanjun Bu, Kaiji Lu

TL;DR
This study develops a new composite high-modulus asphalt to reduce early rutting in heavy-traffic pavements in China.
Contribution
A novel composite modifier combining DCLR, SBS, and SBR is proposed and optimized for enhanced asphalt performance.
Findings
The optimal composite asphalt formulation shows a rutting factor 6.43 times higher than base asphalt.
The composite asphalt exhibits excellent low-temperature performance with a limit temperature of -17°C.
It demonstrates significantly better aging resistance and water damage resistance than control asphalts.
Abstract
To address the prominent problem of early rutting distress in asphalt pavements under heavy-load traffic in China, this study proposes a composite modifier consisting of direct coal liquefaction residue (DCLR), styrene–butadiene–styrene block copolymer (SBS), and styrene–butadiene rubber (SBR). The preparation process and formula were optimized through single-factor experiments and orthogonal tests. Systematic investigations were conducted on its conventional performance, water damage resistance, aging resistance, fatigue performance, rheological properties, and microscopic mechanism, with comparisons made against base asphalt, single DCLR-modified asphalt, SBS-modified asphalt, and SBS/SBR-modified asphalt. The results indicate that the optimal preparation process for the novel composite high-modulus modified asphalt is as follows: DCLR particle size of 0.3 mm, addition in molten…
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Taxonomy
TopicsAsphalt Pavement Performance Evaluation · Polymer Nanocomposites and Properties · Public Health and Nutrition
