Underwater stress relaxation studies of nafion (perfluorosulfonate) ionomer membranes

Thein Kyu, Adi Eisenberg
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引用次数: 17

Abstract

In an effort to elucidate the nature of ionic aggregation and its effect on the primary relaxation (α process) in the Nafion polymers (EW = 1200), underwater and undermethanol stress relaxation tests were conducted at various temperatures (20–70°C). Both semicrystalline and amorphous Nafion-Na relax faster in the presence of water than in the dry state. In marked contrast to the behavior observed for Nafions in the dry condition, the kind of countercations is insignificant in the underwater stress relaxation. The great similarity in the underwater stress relaxation curves for different cations is attributable to the reduction of ionic interaction between the bound anions and unbound cations, probably associated with the water shielding around the ionic species. This leads to the suggestion that the primary α relaxation may be relevant to the ionic groups rather than to the matrix Tg, representing a reversal of the original assignment of the mechanical α and β relaxations. Increased swelling in methanol shows a modulus being one order of magnitude lower than that in the underwater runs. However, little or no difference is seen in the rates of stress relaxation in the underwater and undermethanol stress relaxation experiments. It is postulated that methanol also interacts with the interracial regions or with the fluorocarbon matrix in the Nafions, not just with the ionic regions.

全氟磺酸离子膜的水下应力松弛研究
为了阐明离子聚集的性质及其对Nafion聚合物(EW = 1200)初级弛豫(α过程)的影响,在不同温度(20-70°C)下进行了水下和甲醇下应力弛豫试验。半晶和非晶的Nafion-Na在有水的情况下比在干燥状态下弛豫更快。与在干燥条件下观察到的naions的行为明显相反,这种对抗在水下应力松弛中是微不足道的。不同阳离子的水下应力松弛曲线非常相似,这是由于结合的阴离子和未结合的阳离子之间的离子相互作用减少,可能与离子种类周围的水屏蔽有关。这表明初级α弛豫可能与离子基团有关,而不是与基体Tg有关,这代表了机械α和β弛豫的原始分配的逆转。在甲醇中增加的膨胀量比在水下运行时的膨胀量低一个数量级。然而,在水下和甲醇下应力松弛实验中,应力松弛率几乎没有差异。假定甲醇不仅与离子区相互作用,还与异种区或氟碳基体相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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