探索偏高岭土基土工聚合物的化学性质

IF 2.6 4区 化学 Q3 POLYMER SCIENCE Journal of Polymer Research Pub Date : 2024-11-19 DOI:10.1007/s10965-024-04170-6
Krishnan Dhanalakshmi, Seenipeyathevar Meenakshi Sudarvizhi, Prakash Arul Jose, Muniraj Dhanasekaran
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引用次数: 0

摘要

本实验研究探讨了不同的硅铝比(Si/Al)对偏高岭土合成的土工聚合物的影响。采用了不同的硅/铝比例(1:1、1.5:1、2:1、3:1、4:1 和 5:1),纳米二氧化硅是改变硅比例的源材料。使用 SEM、XRD、NMR 和抗压强度测试分析了微观结构和强度,使用傅立叶变换红外光谱和计算模型研究了可持续材料合成工艺--土聚合。研究了铝和硅分子的溶解速率以及 N-A-S-H 凝胶的形成。研究结果表明,硅/铝比例为 2:1 时,硅和铝的溶解速度明显加快,从而形成了硅-O-T 键和优异的抗压强度。计算分析证实,机械性能主要归因于 N-A-S-H 凝胶的形成,而不是沸石核或硅酸盐衍生物。这些发现为将土工聚合应用于矿山尾矿的价值评估提供了宝贵的见解,因为矿山尾矿通常具有较高的硅/铝比率。
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Exploring the chemistry of metakaolin-based geopolymers

This experimental study investigates the impact of different silicon-to-alumina (Si/Al) ratios on geopolymers synthesized from metakaolin. Various ratios of Si/Al (1:1, 1.5:1, 2:1, 3:1, 4:1, and 5:1) were employed, nano-silica was the source material to alter the Si ratio. Microstructure and strength were analysed using SEM, XRD, NMR, and compressive strength testing Geopolymerization, a sustainable material synthesis process, was investigated using FTIR spectroscopy and computational modeling. The dissolution rates of aluminum and silicon molecules, as well as the formation of N-A-S-H gel, were studied. Results revealed that a Si/Al ratio of 2:1 significantly enhanced the dissolution of silicon and aluminum, leading to the formation of Si-O-T bonds and superior compressive strength. Computational analysis confirmed that the mechanical performance was primarily attributed to the formation of N-A-S-H gel, rather than zeolitic nuclei or silicate derivatives. These findings provide valuable insights for the application of geopolymerization in valorizing mine tailings, which often exhibit high Si/Al ratios.

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来源期刊
Journal of Polymer Research
Journal of Polymer Research 化学-高分子科学
CiteScore
4.70
自引率
7.10%
发文量
472
审稿时长
3.6 months
期刊介绍: Journal of Polymer Research provides a forum for the prompt publication of articles concerning the fundamental and applied research of polymers. Its great feature lies in the diversity of content which it encompasses, drawing together results from all aspects of polymer science and technology. As polymer research is rapidly growing around the globe, the aim of this journal is to establish itself as a significant information tool not only for the international polymer researchers in academia but also for those working in industry. The scope of the journal covers a wide range of the highly interdisciplinary field of polymer science and technology, including: polymer synthesis; polymer reactions; polymerization kinetics; polymer physics; morphology; structure-property relationships; polymer analysis and characterization; physical and mechanical properties; electrical and optical properties; polymer processing and rheology; application of polymers; supramolecular science of polymers; polymer composites.
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