氧等离子体活化处理改善碳纤维表面胺功能化

IF 2.1 4区 材料科学 Q3 MATERIALS SCIENCE, COMPOSITES Composite Interfaces Pub Date : 2023-06-09 DOI:10.1080/09276440.2023.2223407
Zefeng Yang, Xuefei Huang, Jie Li, Bo Tang, Guizao Huang, Wenfu Wei, Guangning Wu
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引用次数: 0

摘要

利用氧等离子体进行预处理是目前常用的一种方法,以提高碳纤维的表面活性,并使其能够接枝更多的官能团。虽然CF表面的氧化处理被认为是进一步接枝官能团的关键步骤,但很少有研究者研究氧化处理如何影响接枝过程。本文通过实验研究了氧化程度对氨基官能团接枝的影响。实验表明,氧化过程分为初始氧化、饱和氧化和过氧化三个阶段。结果表明,在一定范围内,氧化程度与接枝效率呈正相关。此外,氧化后产生的基团(不饱和C、C- oh和O=C- oh)决定了与氨基(C- n、C- nh2和O=C- nh2)基团接枝的结果。当O2等离子体处理时间从0 min增加到3 min时,CF@HA的IFSS提高了1.07倍,CFRP的抗弯强度提高了1.26倍。本工作证明了CF的氨接枝可以通过调整其早期氧化过程来控制。
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Improved amine functionalization of carbon fiber surfaces by O2 plasma activation treatment
Pretreatment using O2 plasma is a commonly used method today to increase the surface activity of CFs and enable more functional groups to be grafted onto them. Although the oxidation treatment of the CF surface is considered a key procedure for further grafting with functional groups, few researchers have investigated how the oxidation treatment influences the grafting processes. In this paper, the effects of the degree of oxidation on the grafting of amino functional groups onto CFs were experimentally investigated. The experiment showed that the oxidation process developed in steps including initial oxidation, saturation oxidation, and peroxidation. The results demonstrated that the degree of oxidation was positively correlated with the grafting efficiency within a certain range. Furthermore, the groups (unsaturated C, C-OH, and O=C-OH) produced after oxidation determined the results of grafting with amino (C-N, C-NH2, and O=C-NH2) groups. When the O2 plasma treatment time was increased from 0 min to 3 min, the IFSS of CF@HA increased by 1.07 times and the flexural strength of CFRP increased by 1.26 times. This work proves that the ammonia grafting of CF can be controlled by adjusting its earlier oxidation process.
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来源期刊
Composite Interfaces
Composite Interfaces 工程技术-材料科学:复合
CiteScore
5.00
自引率
3.80%
发文量
58
审稿时长
3 months
期刊介绍: Composite Interfaces publishes interdisciplinary scientific and engineering research articles on composite interfaces/interphases and their related phenomena. Presenting new concepts for the fundamental understanding of composite interface study, the journal balances interest in chemistry, physical properties, mechanical properties, molecular structures, characterization techniques and theories. Composite Interfaces covers a wide range of topics including - but not restricted to: -surface treatment of reinforcing fibers and fillers- effect of interface structure on mechanical properties, physical properties, curing and rheology- coupling agents- synthesis of matrices designed to promote adhesion- molecular and atomic characterization of interfaces- interfacial morphology- dynamic mechanical study of interphases- interfacial compatibilization- adsorption- tribology- composites with organic, inorganic and metallic materials- composites applied to aerospace, automotive, appliances, electronics, construction, marine, optical and biomedical fields
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