Study on Surface Glass Transition Behavior in Monodisperse Polystyrene Films

Journal of the Society of Rheology, Japan Pub Date : 2004-01-01 DOI:10.1678/RHEOLOGY.32.17

Keiji Tanaka

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Abstract

Japan Surfaces in polymeric materials play an important role in many technological applications. Hence, systematical understanding of aggregation states and physical properties at the surfaces is of pivotal importance as the first benchmark so that highly functionalized polymeric materials based on surface peculiarity can be promisingly designed and constructed. Nevertheless, surface properties, especially rheological properties, had not been studied until early 90s because of technical difficulties. In 1993, we started to embark on this intriguing and challenging issue by mainly scanning force microscopy using monodisperse polystyrene (PS) solid films. Consequently, conclusions obtained thus far are consistently arrived that molecular motion at the PS surfaces is thermally activated in comparison with the corresponding internal bulk region. However, it is far from clear for the moment what the whole picture of such peculiar surface mobility is, although we believe that some parts of it have been successfully clarified to date. Here, experimental methods to examine surface rheological properties, which we have proposed, are mentioned at first, and then, essential points of what we have established are

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单分散聚苯乙烯薄膜表面玻璃化转变行为的研究

高分子材料表面在许多技术应用中起着重要的作用。因此，系统地了解表面的聚集状态和物理性质作为第一个基准是至关重要的，这样基于表面特性的高功能化聚合物材料就可以有希望地设计和制造出来。然而，由于技术上的困难，直到90年代初才对其表面特性，特别是流变性能进行研究。在1993年，我们开始着手这个有趣的和具有挑战性的问题，主要是扫描力显微镜使用单分散聚苯乙烯(PS)固体薄膜。因此，到目前为止得到的结论一致地得出，与相应的内部体积区域相比，PS表面的分子运动是热激活的。然而，目前还远不清楚这种奇特的表面流动性的全貌，尽管我们相信迄今为止已经成功地澄清了其中的一些部分。在这里，首先提到我们提出的检验表面流变特性的实验方法，然后，我们所建立的要点是

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Journal of the Society of Rheology, Japan

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