Insights into the Chain and Local Mobility of Some Aromatic Polyamides and Their Influence on the Physicochemical Properties

This study refers to the relationship between the macromolecular structure of two aromatic fluorinated polyamides and their physical properties, with emphasis on the overall and local chain mobility and their influence upon thermal transitions, dielectric relaxations, and gas permeability/selectivit...

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Bibliographic Details
Published in:Macromolecular chemistry and physics 2014-08, Vol.215 (16), p.1573-1587
Main Authors: Damaceanu, Mariana-Dana, Rusu, Radu-Dan, Cristea, Mariana, Musteata, Valentina-Elena, Bruma, Maria, Wolinska-Grabczyk, Aleksandra
Format: Article
Language:English
Subjects:
Applied sciences
Aromatic polyamides
chain and local movement
Chain mobility
Correlation analysis
Dielectric relaxation
Electrical, magnetic and optical properties
Exact sciences and technology
Fluorination
gas permeability
Naphthalene
Organic polymers
Permeability
Physicochemistry of polymers
Polyamide resins
polyamides
Polymers
Properties and characterization
sub-glass relaxations
wetting properties
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Summary:This study refers to the relationship between the macromolecular structure of two aromatic fluorinated polyamides and their physical properties, with emphasis on the overall and local chain mobility and their influence upon thermal transitions, dielectric relaxations, and gas permeability/selectivity. One polyamide contains naphthalene and 1,3,4‐oxadiazole units in the main chain, while the other is based on an aromatic asymmetrical diamine containing a phenoxy‐substituted benzophenone segment. Free‐standing, tough, and defectless films, having a hydrophobic character are prepared from these polymers and used afterward for various measurements. The polyamide films show excellent thermal stability, their decomposition starting around 400 °C. The dielectric spectroscopy data corroborate the dynamic‐mechanical analysis, showing distinct γ and β sub‐glass relaxations, which are discussed in correlation with the chemical structure of each polymer. The permeability of several gases through these membrane‐forming materials are measured and discussed with respect to the structural variations in the polyamide repeating unit. Correlations between the structural features and some of the properties of aromatic fluorinated polyamide are studied, which can be understood by investigating the influence of the polymeric architecture on the chain mobility. In particular, the effect of the chemical structure on thermal transitions and resistance, dynamic mechanical behavior, dielectric relaxations, molecular disorder, wetting characteristics, and gas permeation of these polymers is studied.
ISSN:1022-1352
1521-3935
DOI:10.1002/macp.201400213