石墨烯和纳米粘土作为加工助剂:聚苯乙烯的流变行为研究

C Pub Date : 2023-10-07 DOI:10.3390/c9040096
Julie Genoyer, Emna Helal, Giovanna Gutierrez, Nima Moghimian, Eric David, Nicole R. Demarquette
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引用次数: 0

摘要

研究了层状颗粒在熔融聚苯乙烯中作为加工助剂的效果。为此选择了三种石墨烯等级和两种不同横向尺寸的粘土。用扫描电镜观察了复合材料的形貌。进行了稳态剪切试验,并将考虑屈服应力的careau - yasuda模型应用于试验结果。几乎所有复合材料在颗粒含量为2 wt.%时,粘度都有所下降。最有效的降低粘度的颗粒被发现是石墨烯在一个松散的团聚配置。具有相似分散状态的石墨烯和粘土颗粒对粘度的影响相似,分别诱导降低29%和22%,表明作为加工助剂的效率相当。观察到的粘度下降归因于超润滑现象,这是一种与颗粒的原子结构密切相关的润滑机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Graphene and Nanoclay as Processing Aid Agents: A Study on Rheological Behavior in Polystyrene
The effectiveness of layered particles as processing aid agents in molten polystyrene was studied. Three graphene grades and two clays of different lateral size were selected for this purpose. The morphologies of the composites were observed using scanning electron microscopy. Steady shear measurements were carried out and the Carreau–Yasuda model with yield stress was applied to the experimental results. A decrease in viscosity was observed at 2 wt.% of particle content for almost all composites. The most efficient particle for reducing viscosity was found to be graphene in a loose agglomerated configuration. Graphene and clay particles with similar dispersion states had a similar effect on the viscosity, inducing a decrease by 29% and 22%, respectively, suggesting comparable efficiency as processing aid agents. The observed decrease in viscosity is attributed to the phenomenon of superlubricity, which is a lubricating mechanism that is closely linked to the atomic structure of the particles.
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