沥青
材料科学
复合材料
环氧树脂
流变学
沥青路面
作者
Yuchao Gao,Jiao Jin,Shuai Liu,Huiwen Chen,Bozhen Chen,Guoping Qian
标识
DOI:10.1061/jmcee7.mteng-15243
摘要
This study aimed to explore the interaction and antiaging characteristics of composite phase change materials in asphalt for long-term temperature adjustment of asphalt pavement. First, the epoxy resin/phase change materials (E-PCMs) modified asphalt binders were prepared by the melt blending method, and their microscopic, rheological, and temperature adjustment properties were tested. Finally, the long-term performance of the modified asphalt binders was evaluated by simulated aging. The results show that E-PCMs are well dispersed in the modified asphalt binders. E-PCMs can improve the temperature sensitivity and high-temperature stability of asphalt binders, and they could reduce the fluidity of asphalt molecules at high-temperature. The extreme temperature of the E-PCMs–modified asphalt binders can be reduced by 10.4°C and have an excellent temperature adjustment effect. The aged modified asphalt binders still have excellent temperature adjustment properties, and the survival rate of phase change enthalpy is 88%. E-PCMs could also prevent the oxidative aging of asphalt molecules and reduce the adverse effects of the photothermal environment on asphalt. It provides reference and basis for the large-scale promotion and application of temperature-adjusting pavement, which reduces the temperature disease of asphalt pavement and the near-surface thermal environment.
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