以石灰窑尘和白云石粉为可持续填料的沥青胶的流变和物理化学特性

Najib Mukhtar , Mohd Rosli Mohd Hasan , Hanizah Osman , Zainiah Mohd Zin , Khairul Anuar Shariff , Nur Izzi Md. Yusoff , Ashiru Sani
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引用次数: 1

摘要

填料-沥青相互作用机理是了解沥青混合料性能的最重要阶段之一。然而,尽管进行了大量研究,但微观层面上对填料-沥青相互作用的深入了解尚待确定。本研究的目的是更好地了解填料-沥青微观尺度的相互作用,即填料夹杂物导致的胶泥理化性能和流变性能之间的协同作用。基于在高温条件下的温度扫描,分析了两种可持续的胶泥,白云石粉末(DP)和石灰窑粉尘(LKD),以及纯PEN 60/70粘合剂的流变性能。同时,使用动态剪切流变仪(DSR)在路面使用温度下进行了频率扫描和多次应力蠕变恢复(MSCR)试验。使用扫描电子显微镜(SEM)和能量色散X射线(EDX)进行了物理化学测试,以分析颗粒形状、粒度、织构和化学成分等参数的影响。DSR测试结果表明,在沥青结合料中加入填料可显著提高结合料的车辙和疲劳性能。同样,在较高的填料和粘合剂浓度下,其应变和不可恢复的顺应性参数显著降低。在不同的加载频率和温度水平下,与DP胶泥相比,低孔隙率(R.V)、高细度模量(FM)和高比表面积(SSA)的物理填料特性导致LKD胶泥具有更大的界面刚度和弹性。SEM/EDX结果还表明,每种填料组分的元素钙和碳组成及其颗粒形态强烈影响其流变性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rheological and physicochemical characteristics of asphalt mastics incorporating lime kiln dust and dolomite powder as sustainable fillers

The filler-bitumen interaction mechanism is one of the most essential phases for comprehending the asphalt mixture's performance. However, despite numerous studies, in-depth knowledge of filler-bitumen reciprocity at a microscale level is yet to be ascertained. The goal of this research is to gain a better understanding of the filler-bitumen microscale interaction in terms of the synergy and coaction between the physicochemical and rheological performance of mastics due to filler inclusions. The rheological properties of two sustainable mastics, dolomite powder (DP) and lime kiln dust (LKD), together with a neat PEN 60/70 binder, were analysed based on a temperature sweep at elevated temperature conditions. Meanwhile, frequency sweep and multiple stress creep recovery (MSCR) tests were also conducted at pavement serviceability temperature using the dynamic shear rheometer (DSR). Physicochemical tests using a scanning electron microscope (SEM) and energy dispersive X-rays (EDX) were conducted to analyse the impact of parameters such as particle shape, grain size, texture, and chemical compositions. The DSR test results showcased how the incorporation of fillers in asphalt binder considerably improved the performance of the binder in terms of rutting and fatigue. Likewise, its strain and non-recoverable compliance parameters were substantially reduced at higher filler and binder concentrations. Physical filler attributes of low rigden voids (R.V), high fineness modulus (FM), and high specific surface area (SSA) led to greater interfacial stiffness and elasticity in LKD mastics compared to DP mastics at different loading frequencies and temperature levels. The SEM/EDX results also indicated that the elemental calcium and carbon composition of each filler component, together with its grain morphology, strongly influenced its rheological performance.

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