聚环氧乙烷/ MMT纳米复合材料的分散性和流变性

M. Reading, A. Vaughan
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引用次数: 10

摘要

自从Lewis于1994年首次提出纳米电介质的概念以来,纳米电介质的主题就变得越来越重要。然而,虽然纳米电介质表现出巨大的前景,但宏观物理性质的变化是由分散决定的,因此,必须有可靠的方法来经济有效地确定纳米填料在主体聚合物基质中的分散状态。本文详细研究了PEO /蒙脱土(MMT)纳米复合材料的流变响应;MMT是一种极性材料,因此与水性体系相对兼容。使用了三种分子量的peo: 100,000 g mol-1、400,000 g mol-1和1,000,000 g mol-1。然后研究了包含不同水平MMT的一系列系统的流变行为,有两个目标:(a)生产具有不同剪切历史和不同程度MMT分散的材料,用于其他地方描述的研究;(b)探索流变响应作为确定纳米填料在液体聚合物中分散状态的实用手段。这将有很大的实际用途,作为质量控制装置,例如,环氧基纳米电介质的生产。在本文中,我们集中在工作的后一个方面,并描述聚合物摩尔质量,聚合物浓度,施加剪切历史和纳米填料加载水平对系统流变行为的影响。
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Dispersion and Rheology of Poly(ethylene oxide) / MMT Nanocomposites
The topic of nanodielectrics is one that has grown enormously in importance since Lewis first introduced the concept of a nanodielectric in 1994. However, while nanodielectrics exhibit great promise, changes in macroscopic physical properties are determined by dispersion, and therefore it is imperative that reliable methods are available for the cost-effective determination of the dispersion state of the nanofiller in the host polymeric matrix. This paper details an investigation into the rheological response of PEO / montmorillonite (MMT) nanocomposites; MMT is a polar material and is therefore relatively compatible with aqueous systems. Three molecular weight PEOs were used - 100,000 g mol-1, 400,000 g mol-1 and 1,000,000 g mol-1. The rheological behaviour of a range of systems containing various levels of MMT were then studied, with the twin objectives of (a) producing materials with different shear histories and different degrees of MMT dispersion for study as described elsewhere and (b) to explore rheological response as a practical means of determining the dispersion state of a nanofiller in a liquid polymer. This would have great practical utility as a quality control device in, for example, the production of epoxy-based nanodielectrics. In this paper we concentrate on the latter aspect of the work and describe the effect of polymer molar mass, polymer concentration, imposed shear history and nanofiller loading level on the rheological behaviour of the system.
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