聚甲基丙烯酸甲酯降解、稳定和敏化的新进展

R. Chandra, R. Saini
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引用次数: 8

摘要

物理和化学过程结合在一起,统称为老化,在聚合物形成后立即开始。氧气和环境中的其他成分——臭氧、水等——都参与其中。温度、光、强电离辐射和机械应力的升高会加速老化,在热塑性聚合物的加工条件下,这些因素尤其迅速。聚甲基丙烯酸甲酯(PMMA)特别令人感兴趣,因为至少在热降解很重要的温度下,光解通过端基引发发生,并伴随着广泛的解聚。该聚合物也在室温下通过低压汞灯的辐射在空气中进行了光降解,并确定了随机链断裂的量子产率。由于这些要点的重要性,人们相信,对迄今为止PMMA的降解、稳定和敏化研究的回顾将提供有关其最普遍问题的信息。
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NEW DEVELOPMENTS IN THE DEGRADATION, STABILIZATION, AND SENSITIZATION OF POLY(METHYL METHACRYLATE)
Abstract Physical and chemical processes, combined under the general term aging, begin immediately after formation of a polymer. Oxygen and other components of the environment -ozone, water, etc.-are involved. Aging is accelerated by a rise in temperature, light, strong ionizing radiations, and mechanical stresses, which are especially rapid under processing conditions for thermoplastic polymers. Poly(methy1 methacrylate) (PMMA) is of particular interest, since at least at temperatures where thermal degradation is important, photolysis occurs by end-group initiation and is accompanied by extensive depolymerization. This polymer has also been photodegraded in air at room temperature by radiation from a low-pressure mercury lamp, and a quantum yield for random chain scission has been determined. Owing to the importance of these points, it is believed that a review of studies of degradation, stabilization, and sensitization of PMMA up to the present date will supply information on the most general problems o...
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