一维多壁碳纳米管和二维石墨烯纳米片对环氧树脂/乙烯基酯互穿聚合物网络纳米复合材料固化行为的影响

IF 4.8 2区 材料科学 Q2 MATERIALS SCIENCE, COMPOSITES
Afrooz Molaei, Ali Jannesari
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引用次数: 0

摘要

本研究细致地研究了二维石墨烯纳米片(GnPs)和一维多壁碳纳米管(MWCNTs)这两种碳同位素纳米填料在不同负载量下对质量比为 1:1 的环氧树脂(EP)/乙烯基酯(VE)互穿聚合物网络(IPN)体系固化动力学的影响。IPN 体系包括以双酚 A 为基础的液态环氧树脂和以双酚 A 为基础的乙烯基酯树脂,前者已在 1-甲基咪唑(Mi)作为促进剂的存在下通过甲基四氢邻苯二甲酸酐(MTHPA)固化,后者已通过过氧化甲乙酮(MEKP)固化。使用 DSC 在四种加热速率下研究了所有制备的纳米复合材料在非等温条件下的固化行为。在评估反应动力学时采用了两种不同的等转化方法,即弗里德曼法和先进的维亚佐夫金法。所有样品的活化能曲线都显示出复杂的固化行为,包括三个阶段:早期 IPN 阶段、IPN 生长阶段和晚期 IPN 阶段。然后,根据弗里德曼方法确定了每个反应步骤的活化能值。GnPs 的存在对 VE 与 MEKP 的反应没有催化作用。相反,加入 MWCNT 纳米颗粒后,环氧化物与 MTHPA-Mi 的开环反应以及 VE 的羟基与 MTHPA 的酯化反应的活化能值大大降低。与 MWCNT 不同,GnPs 不会催化 VE/MEKP 反应。结合使用 MWCNTs 和 GnPs 可增强 IPN 纳米复合材料的性能。固化过程包括影响活化能的 IPN 早期、生长期和后期阶段。SEM 分析表明,GnPs 在含有 MWCNTs 的 IPN 纳米复合材料中的分散性更好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The effects of 1D multi‐wall carbon nanotubes and 2D graphene nanoplatelets on curing behavior of epoxy/vinyl ester interpenetrating polymer network nanocomposites

The effects of 1D multi‐wall carbon nanotubes and 2D graphene nanoplatelets on curing behavior of epoxy/vinyl ester interpenetrating polymer network nanocomposites
This study meticulously investigated the effect of two carbon allotrope nanofillers, two‐dimensional graphene nanoplatelets (GnPs) and one‐dimensional multi‐wall carbon nanotubes (MWCNTs) individually, at various loadings on the kinetics of curing of the epoxy (EP)/vinyl ester (VE) based interpenetrating polymer network (IPN) system, with a mass ratio of 1:1. The IPN system is including a liquid epoxy resin based on bisphenol A which has been cured by methyltetrahydrophthalic anhydride (MTHPA) in the presence of 1‐methyl imidazole (Mi) as an accelerator and a vinyl ester resin based on bisphenol A which has been cured by methyl ethyl ketone peroxide (MEKP). The curing behavior of all prepared nanocomposites under non‐isothermal conditions was studied using DSC at four heating rates. Two different isoconversional approaches were applied to evaluate the reaction kinetics, that is, the Friedman and the advanced Vyazovkin methods. The obtained activation energy curves for all samples revealed a complex curing behavior involving three stages: early IPN stage, IPN growth stage, and late IPN stage. Then, the activation energy values for each reaction step were determined based on the Friedman method. The presence of GnPs showed no catalytic effect on the reaction of VE with MEKP. In contrast, incorporating MWCNT nanoparticles considerably decreases the activation energy values of the reaction of ring opening of epoxides with MTHPA‐Mi and the reaction of esterification of the hydroxyl groups of VE with MTHPA.Highlights MWCNTs reduce activation energy in curing reactions for EP/MTHPA‐Mi and VE/MTHPA. GnPs do not catalyze VE/MEKP reaction unlike MWCNTs. Combining MWCNTs and GnPs enhances properties of IPN nanocomposites. Curing process includes early, growth, and late IPN stages impacting activation energy. SEM analysis reveals better dispersion of GnPs in IPN nanocomposites with MWCNTs.
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来源期刊
Polymer Composites
Polymer Composites 工程技术-材料科学:复合
CiteScore
7.50
自引率
32.70%
发文量
673
审稿时长
3.1 months
期刊介绍: Polymer Composites is the engineering and scientific journal serving the fields of reinforced plastics and polymer composites including research, production, processing, and applications. PC brings you the details of developments in this rapidly expanding area of technology long before they are commercial realities.
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