DFT study on the polyol sacrificial agents for improved clay tolerance of polycarboxylate superplasticizers

IF 1.5 4区 工程技术 Q2 Earth and Planetary Sciences Physicochemical Problems of Mineral Processing Pub Date : 2024-02-17 DOI:10.37190/ppmp/184130
Zhihao He, Teng Huang, Meiben Gao, Enwen Wang, Desong Kong, Meng Li
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Abstract

With the gradual scarcity of high-quality sand and gravel resources, the increasing mud content in concrete aggregates could strongly adsorb on polycarboxylate superplasticizers (PCE), greatly reducing their working performance. Modifying the molecular structure of PCE or compounding sacrificial agents can effectively improve the tolerance to clay minerals. In this article, using different small molecule polyols and polypropylene glycol (PPG) as examples, density functional theory (DFT) was employed to simulate the adsorption between clay minerals and hydration products. This exploration aims to further understand the anti-clay performance of various sacrificial agents from the perspective of adsorption energy. Ca-montmorillonite (CaMMT) exhibits the lowest adsorption energy among different clay minerals, making it the preferred site for sacrificial agent adsorption. With an increase in hydroxyl number, the adsorption energy between polyol sacrificial agents and montmorillonite decreases. Among polymeric polyols, the adsorption energy between PPG 600 and montmorillonite is the lowest (-10.86 eV), indicating superior anti-clay performance by preferentially occupying active sites on montmorillonite. As the interlayer spacing of montmorillonite increases, the adsorption energy between PPG 600 and montmorillonite initially decreases and then increases, reaching the lowest value at c=15.5 Å. There are more electron transfers (0.858) compared to the electron gain and loss, confirming more interaction between the sacrificial agents and montmorillonite at 15.5Å. This article also provides a crucial theoretical basis for the structural design of anti-clay sacrificial agents, offering insights into addressing compatibility issues between PCEs and clay minerals.
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关于多元醇牺牲剂的 DFT 研究,以提高聚羧酸盐超塑化剂的粘土耐受性
随着优质砂石资源的逐渐匮乏,混凝土骨料中含泥量的增加会对聚羧酸盐超塑化剂(PCE)产生强烈的吸附作用,从而大大降低其工作性能。改变聚羧酸盐超塑化剂的分子结构或复配牺牲剂可有效提高其对粘土矿物的耐受性。本文以不同的小分子多元醇和聚丙二醇(PPG)为例,采用密度泛函理论(DFT)模拟了粘土矿物与水合产物之间的吸附作用。这一探索旨在从吸附能的角度进一步了解各种牺牲剂的抗粘土性能。在不同的粘土矿物中,钙蒙脱石(CaMMT)的吸附能最低,因此是牺牲剂吸附的首选部位。随着羟基数的增加,多元醇牺牲剂与蒙脱石之间的吸附能降低。在聚合物多元醇中,PPG 600 与蒙脱石之间的吸附能最低(-10.86 eV),这表明多元醇优先占据蒙脱石上的活性位点,具有优异的抗粘土性能。随着蒙脱石层间距的增大,PPG 600 与蒙脱石之间的吸附能先减小后增大,在 c=15.5 Å 时达到最低值。与电子得失相比,电子转移(0.858)更多,这证实了牺牲剂与蒙脱石之间在 15.5 Å 处有更多的相互作用。这篇文章还为抗粘土牺牲剂的结构设计提供了重要的理论基础,为解决聚合氯化铝与粘土矿物之间的兼容性问题提供了启示。
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来源期刊
Physicochemical Problems of Mineral Processing
Physicochemical Problems of Mineral Processing 工程技术-矿业与矿物加工
CiteScore
2.20
自引率
6.70%
发文量
99
审稿时长
3.3 months
期刊介绍: Physicochemical Problems of Mineral Processing is an international, open access journal which covers theoretical approaches and their practical applications in all aspects of mineral processing and extractive metallurgy. Criteria for publication in the Physicochemical Problems of Mineral Processing journal are novelty, quality and current interest. Manuscripts which only make routine use of minor extensions to well established methodologies are not appropriate for the journal. Topics of interest Analytical techniques and applied mineralogy Computer applications Comminution, classification and sorting Froth flotation Solid-liquid separation Gravity concentration Magnetic and electric separation Hydro and biohydrometallurgy Extractive metallurgy Recycling and mineral wastes Environmental aspects of mineral processing and other mineral processing related subjects.
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