Alejandro Sanz, Amelia Linares, Mari Cruz García-Gutiérrez, Aurora Nogales, Sandra Paszkiewicz, Agata Zubkiewicz, Anna Szymczyk, Tiberio A Ezquerra
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引用次数: 1
摘要
本文介绍了一系列基于生物友好型共聚物的无规共聚物的弛豫动力学实验研究。利用介电光谱分析了聚呋喃三甲基酯/癸二酸酯无规共聚物在玻璃态和紫外态下的弛豫响应。我们报告了与工业上广泛使用的聚酯(如聚对苯二甲酸乙酯)相比,动态脆性(1985年引入的无量纲指标(Angell, Relaxations in Complex Systems, 1985))较低的值,这表明这些呋喃酸酯基聚酯的无定形相采用了有效的链填料。这与它们对气体的低渗透率是一致的。我们还讨论了不同的方程(现象学和基于理论的方法)来拟合α弛豫时间的温度演化。
Relaxation Dynamics of Biomass-Derived Copolymers With Promising Gas-Barrier Properties.
This article presents an experimental study on the relaxation dynamics of a series of random copolymers based on bio-friendly comonomers with interesting gas barrier properties. We analyze the relaxation response in the glassy and ultraviscous regime of poly (trimethylene furanoate/sebacate) random copolymers via dielectric spectroscopy. We report lower values of dynamic fragility [a dimensionless index introduced in 1985 (Angell, Relaxations in Complex Systems, 1985)] in comparison to popular polyesters widely used in industry, such as poly (ethylene terephthalate), suggesting that the amorphous phase of these furanoate-based polyesters adopt an efficient chain packing. This is consistent with their low permeability to gases. We also discuss on different equations (phenomenological and theory-based approaches) for fitting the temperature-evolution of the alpha relaxation time.
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