Transformation of Dispersed Oil Systems by the Addition of Synthetic Waxes

IF 0.7 4区 工程技术 Q4 ENGINEERING, CHEMICAL
V. I. Lukina, S. G. D’yachkova, R. G. Zhitov
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引用次数: 0

Abstract

It was proved that polymer–bitumen binders undergo a structural transformation after the addition of synthetic waxes. UV spectroscopy study showed that wax macromolecules and compounds of the dispersed oil system enter into chemical interactions, which was detected by the disappearance of the absorption band at 260 nm in the UV spectrum of the wax–bitumen blend. This suggested the formation of crosslinked reinforcing spatial structures, which explain the observed improvement in the performance properties of the polymer–bitumen binder after the addition of synthetic waxes: an increase in the softening temperature and brittleness temperature, a decrease in penetration, and an increase in their dynamic viscosity. It was determined that the transformation of the physicochemical characteristics of the polymer–bitumen binder after the addition of wax depends on its chemical nature. Waxes with an aliphatic branched polyethylene structure (Plastobit 430F, Plastowax 200TD, Plastowax 725T, Honeywell Titan 7686) more strongly change the physicochemical characteristics of the polymer–bitumen binder in comparison with waxes of the ProPolymer MA123 and ProPolymer MA-SK-02 brands, which are maleic anhydride–grafted linear polyethylene.

Abstract Image

Abstract Image

通过添加合成蜡改造分散油体系
摘要 研究证明,聚合物沥青粘合剂在添加合成蜡后会发生结构转变。紫外光谱研究表明,蜡大分子与分散油体系中的化合物发生了化学作用,这可以从蜡-沥青混合物紫外光谱中 260 纳米吸收带的消失中检测到。这表明形成了交联的增强空间结构,从而解释了为什么在添加合成蜡后聚合物沥青粘结剂的性能得到了改善:软化温度和脆化温度升高,渗透率降低,动态粘度升高。据测定,添加蜡后聚合物沥青粘结剂理化特性的变化取决于其化学性质。脂肪族支链聚乙烯结构的蜡(Plastobit 430F、Plastowax 200TD、Plastowax 725T、Honeywell Titan 7686)与马来酸酐接枝线性聚乙烯的 ProPolymer MA123 和 ProPolymer MA-SK-02 品牌的蜡相比,对聚合物沥青粘结剂理化特性的改变更大。
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来源期刊
CiteScore
1.20
自引率
25.00%
发文量
70
审稿时长
24 months
期刊介绍: Theoretical Foundations of Chemical Engineering is a comprehensive journal covering all aspects of theoretical and applied research in chemical engineering, including transport phenomena; surface phenomena; processes of mixture separation; theory and methods of chemical reactor design; combined processes and multifunctional reactors; hydromechanic, thermal, diffusion, and chemical processes and apparatus, membrane processes and reactors; biotechnology; dispersed systems; nanotechnologies; process intensification; information modeling and analysis; energy- and resource-saving processes; environmentally clean processes and technologies.
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