An Improved Model for Estimation of Mechanical Properties of Polymer-Clay Nano-Composites

A. Al-Abduljabbar
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Abstract

Polymer-clay nanocomposites are more popular in many industries and applications due to improved mechanical and gas barrier properties over pure polymers and classical polymer-based composites. The mechanism by which clay platelets, with thicknesses in the nanometer range, as opposed to the hundred-nanometer range in the other two dimensions, introduce the mechanical and other properties improvement can be attributed to their high efficiency in creating discontinuities to flows through the bulk matrix polymer material. However, the extent of this improvement depends on the success of separation or achieving full exfoliation of the clay platelets through the bulk matrix. Since such full exfoliation is not achievable experimentally, the aspect ratio of the filler particles is not a simple value that mathematical models employ to describe mechanical properties. In this work, a modification is proposed to improve such models by using relationships utilizing different concentrations of varying filler platelets thicknesses. The improvements in elastic tensile modulus are discussed with consideration of the effect of clay platelet inclusions geometry as depicted through the proposed modification to considered models to capture the effect of nano-platelets on the properties of the composite.
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聚合物-粘土纳米复合材料力学性能评估的改进模型
聚合物-粘土纳米复合材料在许多行业和应用中更受欢迎,因为它比纯聚合物和经典聚合物基复合材料具有更好的机械和气体阻隔性能。与其他两个维度的百纳米厚度相比,厚度在纳米范围内的粘土片的机械性能和其他性能改善的机制可归因于它们在通过大块基质聚合物材料时产生不连续的高效率。然而,这种改善的程度取决于分离的成功与否或粘土血小板通过散装基质的完全剥落。由于这种完全的剥落在实验上是无法实现的,填料颗粒的长径比不是数学模型用来描述机械性能的简单值。在这项工作中,提出了一种修改,以改善这样的模型,利用不同浓度的关系利用不同的填充血小板厚度。讨论了弹性拉伸模量的提高,并考虑了粘土血小板包裹体几何形状的影响,通过提出的修正来描述考虑模型,以捕捉纳米血小板对复合材料性能的影响。
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