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聚合物纳米复合材料与聚合物薄膜之间的定量等效性。

Quantitative equivalence between polymer nanocomposites and thin polymer films.

作者信息

Bansal Amitabh, Yang Hoichang, Li Chunzhao, Cho Kilwon, Benicewicz Brian C, Kumar Sanat K, Schadler Linda S

机构信息

Department of Materials Science and Engineering, Rensselaer Polytechnic Institute, Troy, New York 12180, USA.

出版信息

Nat Mater. 2005 Sep;4(9):693-8. doi: 10.1038/nmat1447. Epub 2005 Aug 7.

Abstract

The thermomechanical responses of polymers, which provide limitations to their practical use, are favourably altered by the addition of trace amounts of a nanofiller. However, the resulting changes in polymer properties are poorly understood, primarily due to the non-uniform spatial distribution of nanoparticles. Here we show that the thermomechanical properties of 'polymer nanocomposites' are quantitatively equivalent to the well-documented case of planar polymer films. We quantify this equivalence by drawing a direct analogy between film thickness and an appropriate experimental interparticle spacing. We show that the changes in glass-transition temperature with decreasing interparticle spacing for two filler surface treatments are quantitatively equivalent to the corresponding thin-film data with a non-wetting and a wetting polymer-particle interface. Our results offer new insights into the role of confinement on the glass transition, and we conclude that the mere presence of regions of modified mobility in the vicinity of the particle surfaces, that is, a simple two-layer model, is insufficient to explain our results. Rather, we conjecture that the glass-transition process requires that the interphase regions surrounding different particles interact.

摘要

聚合物的热机械响应限制了其实际应用,而添加痕量纳米填料可有利地改变这种响应。然而,聚合物性能的由此产生的变化却鲜为人知,这主要是由于纳米颗粒的空间分布不均匀。在此我们表明,“聚合物纳米复合材料”的热机械性能在数量上等同于已充分记录的平面聚合物薄膜的情况。我们通过将薄膜厚度与适当的实验颗粒间距直接类比来量化这种等效性。我们表明,对于两种填料表面处理,随着颗粒间距减小,玻璃化转变温度的变化在数量上等同于具有非润湿和润湿聚合物 - 颗粒界面的相应薄膜数据。我们的结果为受限条件对玻璃化转变的作用提供了新的见解,并且我们得出结论,仅仅在颗粒表面附近存在迁移率改变的区域,即简单的两层模型,不足以解释我们的结果。相反,我们推测玻璃化转变过程要求围绕不同颗粒的界面区域相互作用。

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