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引用次数: 0
摘要
环氧树脂性能卓越,用途广泛,尤其适用于高性能工程应用。然而,高度的交联密度使其变得又硬又脆。为了改善其机械性能,尤其是韧性,人们进行了许多尝试。在当前的研究中,利用多面体低聚硅倍半氧烷纳米结构(POSS)和聚醚胺链的协同特性,将合成的结构作为环氧树脂的共固化剂,改善了韧性和机械性能,尤其是模量。特征分析表明,合成分子的结构是以 POSS 为核心,在硅氧烷笼上连接有四条聚醚胺链和四条缩水甘油基丙基链。结果表明,使用合成的结构(GA-POSS)作为共固化剂有两个作用:一是作为增强剂,提高玻璃化转变温度、韧性和杨氏模量;二是增加交联剂之间的距离。此外,它还增加了交联间的距离,从而提高了 tan δ 和断裂伸长率。然而,当这种纳米分子用作交联剂或 POSS 结构不具有软长链时,就不会产生这些效果,因为在使用 GA-POSS 作为共固化剂的情况下,会形成硬-软-硬状态,从而同时获得较高的机械性能和韧性。
A 3-D nanostructure polyhedral oligomeric silsesquioxane as a (co)-crosslinker of an epoxy resin
Epoxy resins have outstanding properties with variety uses especially in high performance engineering applications. However, high degree of crosslinking density makes them rigid and brittle. Many attempts have been used to improve mechanical properties, especially toughness. In the current work, synergistic properties of using the polyhedral oligomeric silsesquioxane nanostructure (POSS) and polyether amine chains has been used to improve toughness and mechanical properties especially modulus by using the synthesized structure as co-curing agent in epoxy resin. The characteristic analysis showed that the structure of the synthesized molecule is a POSS core with four polyether amine chains and four glycidyloxy propyl chains attached to the siloxane cage. The results indicated that using the synthesized structure (GA-POSS) as co-curing agent has two effects: it acted like a reinforcing agent and improve glass transition temperature, toughness and Young’s modulus. Also, it increased distance between crosslinks which led to increase of tan δ and elongation at break. However, these effects did not observed when this nano-molecule worked as cross linker or when the POSS structure doesn’t have soft long chains because just in the case of using GA-POSS as co-curing agent hard-soft-hard state is formed which leads to high mechanical and toughness properties, simultaneously.
期刊介绍:
The Journal of Reinforced Plastics and Composites is a fully peer-reviewed international journal that publishes original research and review articles on a broad range of today''s reinforced plastics and composites including areas in:
Constituent materials: matrix materials, reinforcements and coatings.
Properties and performance: The results of testing, predictive models, and in-service evaluation of a wide range of materials are published, providing the reader with extensive properties data for reference.
Analysis and design: Frequency reports on these subjects inform the reader of analytical techniques, design processes and the many design options available in materials composition.
Processing and fabrication: There is increased interest among materials engineers in cost-effective processing.
Applications: Reports on new materials R&D are often related to the service requirements of specific application areas, such as automotive, marine, construction and aviation.
Reports on special topics are regularly included such as recycling, environmental effects, novel materials, computer-aided design, predictive modelling, and "smart" composite materials.
"The articles in the Journal of Reinforced Plastics and Products are must reading for engineers in industry and for researchers working on leading edge problems" Professor Emeritus Stephen W Tsai National Sun Yat-sen University, Taiwan
This journal is a member of the Committee on Publication Ethics (COPE).
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