Synthesis and Properties of Polyamide 6 Random Copolymers Containing an Aromatic Imide Structure

Zhang, Yingwei; Wang, Chunhua; Yi, Yong; Wang, Wenzhi; Yang, Jun

doi:10.3390/polym15132812

Cited by 1 publication

(1 citation statement)

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“…These properties make them adequate not only as carpets, stockings, and clothing as fibers but also gears, pipelines, and automotive components as plastics. In society, they are commonly referred to as nylon [1][2][3][4]. In their applications, PAs are exposed to chemical aging, which negatively impacts their mechanical properties in the long term.…”

Section: Introductionmentioning

confidence: 99%

Pure Hydrolysis of Polyamides: A Comparative Study

Brette,

Holm,

Drozdov

et al. 2023

Chemistry

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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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Section: Introductionmentioning

confidence: 99%