Broadband dielectric relaxation spectroscopy in interpenetrating polymer networks of polyurethane-copolymer of butyl methacrylate and dimethacrylate triethylene glycol

 
δείτε την πρωτότυπη σελίδα τεκμηρίου
στον ιστότοπο του αποθετηρίου του φορέα για περισσότερες πληροφορίες και για να δείτε όλα τα ψηφιακά αρχεία του τεκμηρίου*
κοινοποιήστε το τεκμήριο




1998 (EL)

Broadband dielectric relaxation spectroscopy in interpenetrating polymer networks of polyurethane-copolymer of butyl methacrylate and dimethacrylate triethylene glycol (EN)

Apekis, L (EN)
Kanapitsas, A (EN)
Sergeeva, L (EN)
Pissis, P (EN)
Karabanova, L (EN)

The electrical and dielectric properties of interpenetrating polymer networks (IPNs) based on crosslinked polyurethane (PUR) and a copolymer of butyl methacrylate and dimethacrylate triethylene glycol were studied by means of broadband AC dielectric relaxation spectroscopy to obtain information on the morphology and phase separation in these IPNs, Three relaxation processes were observed: a secondary beta relaxation due to the copolymer, the alpha relaxation due to the glass-rubber transition of the PUR phase and a conductivity current relaxation due to charge carriers trapped at the interfaces in the microheterogeneous samples. The alpha relaxation due to the glass-rubber transition of the copolymer is masked by conductivity effects and is revealed after a fitting treatment. The dipolar alpha and beta mechanisms and the AC conductivity mechanism were studied in detail at several IPN compositions, by analysing the dielectric susceptibility data within the complex permittivity formalism, the modulus formalism and power law forms. For the copolymer network, the dielectric loss epsilon "(omega) shows a strong secondary beta relaxation which becomes faster in the IPNs. The PUR network displays a relatively broad alpha-relaxation process which becomes slower in the IPNs, The energy and shape parameters of the response were determined for both mechanisms at several temperatures, From AC conductivity measurements we extracted information about the morphology and local structure of the IPNs, II is concluded that the IPNs studied are two-phase systems, but phase separation is incomplete in these materials. (C) 1998 Elsevier Science Ltd. All rights reserved. (EN)

journalArticle (EN)

Electric conductivity measurement (EN)
Polydimethacrylate triethylene glycol (EN)
Molecular structure (EN)
Polyethers (EN)
Polybutyl methacrylate (EN)
Phase transitions (EN)
Copolymers (EN)
Interpenetrating Polymer Network (EN)
Polyacrylates (EN)
Interpenetrating polymer networks (EN)
Dielectric Relaxation (EN)
Permittivity (EN)
Power law (EN)
Shape Parameter (EN)
Charge carriers (EN)
Phase Separation (EN)
Complex Permittivity (EN)
Polymer Science (EN)
Polyurethanes (EN)
Dielectric relaxation (EN)
Dielectric relaxation spectroscopy (EN)
Dielectric Loss (EN)
Morphology (EN)
Phase separation (EN)
Dielectric Properties (EN)
Power Law (EN)
Local Structure (EN)


Polymer Gels and Networks (EN)

Αγγλική γλώσσα

1998 (EN)

2 (EN)
102 (EN)
0966-7822 (EN)
6 (EN)
ISI:000075429600001 (EN)
83 (EN)
10.1016/S0966-7822(97)00018-X (EN)

ELSEVIER SCI LTD (EN)




*Η εύρυθμη και αδιάλειπτη λειτουργία των διαδικτυακών διευθύνσεων των συλλογών (ψηφιακό αρχείο, καρτέλα τεκμηρίου στο αποθετήριο) είναι αποκλειστική ευθύνη των αντίστοιχων Φορέων περιεχομένου.