Dynamic mechanical behavior of fluorinated aromatic poly(ethers)

A. A. Goodwin, F. Mercer
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引用次数: 6

Abstract

The relaxation behavior of six fluorinated aromatic poly( ethers ) was investigated using dynamic mechanical analysis. The glass transition temperature was found to increase as the size and rigidity of linking groups increased and varied between 168°C for a dimethyl linking group and 300°C for a bicyclic benzoate ether-linking group. For the α-relaxation the steepness of time/temperature plots and broadness of the loss curves could be qualitatively correlated with chemical structure in a manner predicted by the coupling model of relaxation. Well-separated sub-T g transitions were also observed, as a shoulder on the low temperature side of the α-peak, and as a broad, low loss transition around -100°C. The higher temperature process was similar to the structural relaxation often found in quenched glassy polymers, while the position, intensity, and breadth of the subambient process was sensitive to chemical structure.
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含氟芳族聚醚的动态力学行为
采用动态力学分析方法研究了六种含氟芳香聚醚的弛豫行为。玻璃化转变温度随着连接基团的大小和刚性的增加而增加,在168°C(二甲基连接基团)和300°C(双环苯甲酸乙酯连接基团)之间变化。对于α-弛豫,时间/温度曲线的陡峭度和损失曲线的宽度可以用弛豫耦合模型预测的方式与化学结构进行定性关联。分离良好的亚t - g转变也被观察到,作为α-峰低温侧的肩,以及在-100°C左右的宽、低损耗转变。高温过程与淬火玻璃态聚合物中常见的结构弛豫相似,而亚环境过程的位置、强度和宽度对化学结构敏感。
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来源期刊
CiteScore
5.90
自引率
0.00%
发文量
0
审稿时长
2.1 months
期刊介绍: Since its launch in 1946 by P. M. Doty, H. Mark, and C.C. Price, the Journal of Polymer Science has provided a continuous forum for the dissemination of thoroughly peer-reviewed, fundamental, international research into the preparation and properties of macromolecules. From January 2020, the Journal of Polymer Science, Part A: Polymer Chemistry and Journal of Polymer Science, Part B: Polymer Physics will be published as one journal, the Journal of Polymer Science. The merged journal will reflect the nature of today''s polymer science research, with physics and chemistry of polymer systems at the heart of the scope. You can continue looking forward to an exciting mix of comprehensive reviews, visionary insights, high-impact communications, and full papers that represent the rapid multidisciplinary developments in polymer science. Our editorial team consists of a mix of well-known academic editors and full-time professional editors who ensure fast, professional peer review of your contribution. After publication, our team will work to ensure that your paper receives the recognition it deserves by your peers and the broader scientific community.
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