Evaluation of benzaldehyd and dioctyl phthalate modified direct coal liquefaction residue asphalt binder based on rheology and microscopic mechanisms

Jie Ji , Tong Ma , Ziyuan Zhang , Meng Ling , Xinqiang Xu , Jianming Wei
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Abstract

This study intends to investigate the influence of benzaldehyde and dioctyl phthalate (DOP) on the rheological properties and microstructure of direct coal liquefaction residue (DCLR) modified asphalt binder. The high and low temperature rheological properties and fatigue properties were obtained by dynamic shear rheometer (DSR) and bending beam rheometer (BBR) tests. The scanning electron microscopy (SEM) and fourier transform infrared spectroscopy (FTIR) tests were conducted to evaluate the mechanism of property improvement in the DCLR modified asphalt binder. The results showed that the addition of DCLR increased the complex shear modulus G*, rutting factor G*/sin δ and fatigue life Nf of base asphalt binder, significantly improving the high temperature deformation resistance and fatigue resistance of base asphalt binder. This was attributed to the hardening effect resulting from the addition of DCLR, which enhanced the elastic properties, weakened the viscous properties and fluidity of asphalt binder. Additionally, the use of benzaldehyde and DOP reduced the creep stiffness S and lower continuous grading temperature Tc of DCLR modified asphalt binder, which compensated for the shortcomings of low temperature rheological properties of asphalt binder. The SEM images indicated that benzaldehyde and DOP significantly increased the compatibility of DCLR with the base asphalt binder. The FTIR tests showed that the addition of benzaldehyde and DOP introduced the aldehyde and ester groups, which were interacted with more polar functional groups in the asphalt to reduce the resistance to movement between the heavy components in the DCLR modified asphalt binder, which promoted the flow of asphalt and the dispersion of DCLR, and as a result, the benzaldehyde and DOP modified DCLR asphalt binder exhibited satisfied rheological properties.

基于流变学和微观机理的苯甲醛和邻苯二甲酸二辛酯改性直接煤液化残渣沥青粘结剂评估
本研究旨在探讨苯甲醛和邻苯二甲酸二辛酯(DOP)对直接煤液化残渣(DCLR)改性沥青胶结料流变特性和微观结构的影响。通过动态剪切流变仪(DSR)和弯曲梁流变仪(BBR)测试获得了沥青胶结料的高低温流变特性和疲劳特性。通过扫描电子显微镜(SEM)和傅立叶变换红外光谱(FTIR)测试评估了 DCLR 改性沥青胶结料的性能改善机理。结果表明,添加 DCLR 增加了基层沥青胶结料的复剪切模量 G*、车辙系数 G*/sinδ和疲劳寿命 Nf,显著提高了基层沥青胶结料的抗高温变形性能和抗疲劳性能。这归因于添加 DCLR 后产生的硬化效应,它增强了沥青胶结料的弹性性能,削弱了其粘性和流动性。此外,苯甲醛和 DOP 的使用降低了 DCLR 改性沥青胶结料的蠕变刚度 S 和较低的连续级配温度 Tc,弥补了沥青胶结料低温流变性能的不足。扫描电镜图像表明,苯甲醛和 DOP 显著提高了 DCLR 与基质沥青胶结料的相容性。傅立叶变换红外光谱测试表明,苯甲醛和 DOP 的加入引入了醛基和酯基,与沥青中极性较强的官能团相互作用,降低了 DCLR 改性沥青胶结料中重组分之间的运动阻力,促进了沥青的流动和 DCLR 的分散,因此苯甲醛和 DOP 改性 DCLR 沥青胶结料表现出了良好的流变性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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