有机溶剂在氧化石墨烯/纳米二氧化硅杂化天然胶乳纳米复合材料中的扩散行为:实验和理论方法

IF 5.2 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Macromolecular Materials and Engineering Pub Date : 2024-10-26 DOI:10.1002/mame.202400228
Prajitha Velayudhan, Jibin Keloth Paduvilan, Abitha VK, Sisanth Krishnagehum Sidhardhan, Sabu Thomas
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引用次数: 0

摘要

本研究探讨了氧化石墨烯(GO)/纳米二氧化硅(NS)杂化填料(GO/NS)对天然橡胶(NR)复合材料暴露于甲苯、二甲苯和己烷溶剂时扩散特性的影响。NR - GO/ ns3的溶剂吸收率最低(3 phr),这是由于在复合材料中形成了坚固的填料网络。利用Flory-Rehner方程计算的交联密度显示,NR - GO/ ns3的值明显更高,表明在杂化填料的存在下交联密度良好。此外,计算了交联间的分子质量(Mc),证明了与仿射模型的良好拟合。研究扩展到理论建模,其中korsemyer - peppas和Peppas-Sahlin模型被用来预测溶剂吸收行为。引人注目的是,实验值与Peppas-Sahlin模型表现出强烈的一致性。这项综合分析为氧化石墨烯/纳米二氧化硅(GO/NS)混合增强天然胶乳在有机溶剂中的扩散行为提供了有价值的见解,突出了其在耐溶剂涂料、化学储存屏障材料以及在恶劣化学环境中使用的防护手套和密封件的增强性能等领域的潜在应用。
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Diffusion Behavior of Organic Solvents in Graphene Oxide/Nano Silica Hybrid Natural Rubber Latex Nanocomposite: Experimental and Theoretical Approach

This study explores the impact of a graphene oxide (GO)/nano silica (NS) hybrid (GO/NS) filler on the diffusion characteristics of natural rubber (NR) composites when exposed to toluene, xylene, and hexane solvents. The lowest solvent uptake is observed for NR GO/NS 3 (3 phr), which is attributed to forming a robust filler network within the composite. The calculation of crosslink density using the Flory-Rehner equation reveals significantly higher values for NR GO/NS 3, indicating good crosslinking density in the presence of the hybrid filler. Furthermore, molecular mass between crosslinks (Mc) is calculated, demonstrating a favorable fit with the Affine model. The investigation extends to theoretical modeling, where the Korsemeyer–Peppas and Peppas–Sahlin models are employed to predict solvent uptake behavior. Strikingly, the experimental values exhibit a strong alignment with the Peppas–Sahlin model. This comprehensive analysis provides valuable insights into the diffusion behavior of graphene oxide/nano silica (GO/NS) hybrid-reinforced natural rubber latex in organic solvents, highlighting potential applications in areas such as solvent-resistant coatings, barrier materials for chemical storage, and enhanced performance in protective gloves and seals used in harsh chemical environments.

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来源期刊
Macromolecular Materials and Engineering
Macromolecular Materials and Engineering 工程技术-材料科学:综合
CiteScore
7.30
自引率
5.10%
发文量
328
审稿时长
1.6 months
期刊介绍: Macromolecular Materials and Engineering is the high-quality polymer science journal dedicated to the design, modification, characterization, processing and application of advanced polymeric materials, including membranes, sensors, sustainability, composites, fibers, foams, 3D printing, actuators as well as energy and electronic applications. Macromolecular Materials and Engineering is among the top journals publishing original research in polymer science. The journal presents strictly peer-reviewed Research Articles, Reviews, Perspectives and Comments. ISSN: 1438-7492 (print). 1439-2054 (online). Readership:Polymer scientists, chemists, physicists, materials scientists, engineers Abstracting and Indexing Information: CAS: Chemical Abstracts Service (ACS) CCR Database (Clarivate Analytics) Chemical Abstracts Service/SciFinder (ACS) Chemistry Server Reaction Center (Clarivate Analytics) ChemWeb (ChemIndustry.com) Chimica Database (Elsevier) COMPENDEX (Elsevier) Current Contents: Physical, Chemical & Earth Sciences (Clarivate Analytics) Directory of Open Access Journals (DOAJ) INSPEC (IET) Journal Citation Reports/Science Edition (Clarivate Analytics) Materials Science & Engineering Database (ProQuest) PASCAL Database (INIST/CNRS) Polymer Library (iSmithers RAPRA) Reaction Citation Index (Clarivate Analytics) Science Citation Index (Clarivate Analytics) Science Citation Index Expanded (Clarivate Analytics) SciTech Premium Collection (ProQuest) SCOPUS (Elsevier) Technology Collection (ProQuest) Web of Science (Clarivate Analytics)
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