Hydrophilic–Hydrophobic Properties of the Surface of Modified Carbonate Fillers for Asphalt

IF 3 Q2 MATERIALS SCIENCE, COMPOSITES

Journal of Composites Science Pub Date : 2023-12-05 DOI:10.3390/jcs7120507

M.S. Lebedev, V. Yadykina, Andrey Akimov, Marina Kozhukhova, Ekaterina Kuznetsova

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Abstract

The physicochemical modification of the filler allows changing the hydrophilic–hydrophobic properties and effectively influencing the processes occurring at the filler–binder interface, on which the physicomechanical characteristics of composites largely depend. The paper presents studies related to the modification of limestone-based filler effect on the degree of its hydrophobicity and wetting with liquids of different polarity, establishing the relationship between the characteristics of hydrophobized mineral powders and the adsorption capacity in relation to water. Using mechanochemical processing with hydrophobic components GF-1 and GF-2, it was possible to obtain fillers with a sufficiently high content of hydrophobic particles (58.2% and 85.9%, respectively). It was found that the results of the contact angle (123.6° and 114.5°, respectively) and the degree of hydrophobicity do not quite correlate with each other. It was noticed that the contact angle on the powder modified with GF-1 decreases with time. Studies of the powders’ thermal effects wetting of different polarity liquids via microcalorimetry allows us to establish that with an increase in the filler hydrophobicity degree, the integral heat of immersion decreases due to a significant decrease in the probability of chemical interactions between water and powder due to the adsorption of applied surfactants molecules on the limestone active centers. The revealed endothermic effects indicate the occurrence of physical interactions due to non-polar dispersion forces. Differences in the nature of heat release and heat absorption in modified fillers indicate significant differences in the composition and mechanism of action of the used surfactants, which affected the efficiency of hydrophobization. At the same time, a linear dependence of the moisture absorption and moisture indicators, determined by independent experiments, on the degree of hydrophobicity was established.

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沥青用改性碳酸盐填料表面的亲水-疏水特性

填料的物理化学改性允许改变亲疏水性，并有效地影响发生在填料-粘结剂界面上的过程，复合材料的物理力学特性很大程度上取决于这些过程。本文研究了石灰石基填料的改性对其疏水性和不同极性液体润湿程度的影响，建立了疏水性矿物粉体的特性与对水的吸附能力之间的关系。利用疏水组分GF-1和GF-2进行机械化学处理，可以获得疏水颗粒含量足够高的填料(分别为58.2%和85.9%)。结果表明，接触角(分别为123.6°和114.5°)与疏水性的关系不大。结果表明，GF-1改性粉末的接触角随时间的延长而减小。通过微量热法研究粉末对不同极性液体润湿的热效应，我们可以确定，随着填料疏水性程度的增加，浸没的积分热降低，这是由于表面活性剂分子在石灰石活性中心上的吸附，水与粉末之间的化学相互作用概率显著降低。所揭示的吸热效应表明，由于非极性色散力，存在物理相互作用。改性填料放热和吸热性质的差异表明所使用的表面活性剂的组成和作用机理存在显著差异，从而影响了疏水效率。同时，通过独立实验确定了吸湿率和吸湿率指标与疏水性的线性关系。

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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