聚酰胺的纯水解:比较研究

Q3 Chemistry
Chemistry Pub Date : 2023-12-20 DOI:10.3390/chemistry6010002
Mathis Mortensen Brette, Allan Hjarbæk Holm, A. Drozdov, J. Christiansen
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引用次数: 0

摘要

聚酰胺(PA)会随着时间的推移发生局部环境降解,导致其机械性能下降。聚酰胺会经历各种形式的降解,例如热降解、氧化、水热氧化、紫外线氧化和水解。为了更好地理解 PA 的降解过程,必须逐一了解这些降解机制。虽然本综述侧重于水解,但也收集了类似 PA 在纯热氧化和/或水热氧化条件下的降解数据,以便从更多角度把握 PA 的降解过程。本综述分析了现有的表征数据,并评估了在高温无氧水中老化的 PA 在分子量、结晶度、化学结构和机械性能方面的变化。随着老化时间的延长,分子量和机械强度随着结晶度比率的增加而降低。这种变化的速度比纯热氧化降解的速度要慢。通过将机械性能变化数据与分子量和结晶度变化数据相结合,不仅可以预测脆化点,还可以建立模型。研究还表明,这种预测与纤维、添加剂、聚酰胺类型、pH 值等因素有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pure Hydrolysis of Polyamides: A Comparative Study
Polyamides (PAs) undergo local environmental degradation, leading to a decline in their mechanical properties over time. PAs can experience various forms of degradation, such as thermal degradation, oxidation, hydrothermal oxidation, UV oxidation, and hydrolysis. In order to better comprehend the degradation process of PAs, it is crucial to understand each of these degradation mechanisms individually. While this review focuses on hydrolysis, the data from degrading similar PAs under pure thermal oxidation and/or hydrothermal oxidation are also collected to grasp more perspective. This review analyzes the available characterization data and evaluates the changes in molecular weight, crystallinity, chemical structure, and mechanical properties of PAs that have aged in oxygen-free water at high temperatures. The molecular weight and mechanical strength decrease as the crystallinity ratio rises over aging time. This development is occurring at a slower rate than degradation in pure thermal oxidation. By combining the data for the changes in mechanical properties with the ones for molecular weight and crystallinity, the point of embrittlement can be not only predicted, but also modeled. This prediction is also shown to be dependent on the fibers, additives, types of PA, pH, and more.
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来源期刊
CiteScore
2.50
自引率
0.00%
发文量
0
审稿时长
11 weeks
期刊介绍: Chemistry—A European Journal is a truly international journal with top quality contributions (2017 ISI Impact Factor: 5.16). It publishes a wide range of outstanding Reviews, Minireviews, Concepts, Full Papers, and Communications from all areas of chemistry and related fields.
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