Broad line NMR studies on radiation effects on polymers

J. Sohma
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引用次数: 1

Abstract

Our previous studies on the radiation effect on polymers made by using the broad line (BL) NMR technique are autoreviewed with emphasis on the usefulness of this technique. The BL NMR was widely applied, before the prevalence of the modern pulse NMR technique, to study the change of molecular motion caused by either the crosslink or the main-chain scission in solid polymers, since both line-shape and line-width of the BL NMR are sensitive to the molecular motion. Low- and high-density polyethylenes grafted with butadiene by γ-rays were examined before and after the crosslinking induced by heat-treatment with dicumyl peroxide. The crosslinking was found to occur between grafted polybutadiene branches. Polytetrafluoroethylene irradiated with neutron-beam was examined before and after heat-treatment. The results show that heat-treatment causes the formation of paracrystals of radiation-scissored polymer chains and hinders the molecular motion. Response of fluorinated ethylenepropylene copolymer to the neutron-irradiation was quite different: a small fluoropropylene fraction inhibited the paracrystal formation.

辐射对聚合物影响的宽谱核磁共振研究
本文回顾了前人利用宽谱核磁共振技术对聚合物的辐射效应的研究,并着重介绍了该技术的实用性。在现代脉冲核磁共振技术普及之前,由于BL核磁共振的线形和线宽对分子运动敏感,因此广泛应用于研究固体聚合物中交联或主链断裂引起的分子运动变化。用γ射线对低密度和高密度丁二烯接枝聚乙烯进行了过氧化二氨基热处理交联前后的研究。发现接枝的聚丁二烯枝之间发生交联。用中子束辐照聚四氟乙烯,对其热处理前后进行了检测。结果表明,热处理导致辐射剪切聚合物链的副晶形成,阻碍了分子运动。氟化乙烯丙烯共聚物对中子辐照的反应则完全不同:少量氟丙烯抑制了准晶的形成。
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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