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Temperature and Frequency Dependencies of the Complex Dielectric Constant of Poly(ethylene oxide) Under Hydrostatic Pressure (Articolo in rivista)
- Type
- Label
- Temperature and Frequency Dependencies of the Complex Dielectric Constant of Poly(ethylene oxide) Under Hydrostatic Pressure (Articolo in rivista) (literal)
- Anno
- 1996-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.1002/(SICI)1099-0488(199602)34:3<425::AID-POLB3>3.0.CO;2-S (literal)
- Alternative label
C. Fanggao, G. A. Saunders, E. F. Lambson, R. N. Hampton, G.Carini, G. Di Marco, M.Lanza. (1996)
Temperature and Frequency Dependencies of the Complex Dielectric Constant of Poly(ethylene oxide) Under Hydrostatic Pressure
in Journal of polymer science. Part B, Polymer physics (Online)
(literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
- C. Fanggao, G. A. Saunders, E. F. Lambson, R. N. Hampton, G.Carini, G. Di Marco, M.Lanza. (literal)
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- CNR IPCF
UNIME
University of Bath (literal)
- Titolo
- Temperature and Frequency Dependencies of the Complex Dielectric Constant of Poly(ethylene oxide) Under Hydrostatic Pressure (literal)
- Abstract
- Electrical impedance measurements have been made in the frequency range 5 Hz to 10 MHz in pure poly(ethylene oxide) having a molecular weight of 600,000 from 12 K nearly up to the melting point of the crystalline phase (about 330 K). A pronounced relaxation peak in the dielectric loss and a corresponding step in the dielectric constant have been observed at about 240 K, which can be readily related to the glass-rubber transition in the amorphous region of the polymer. As the temperature approaches the melting point there are large increases in the real ?? and imaginary e? parts of the dielectric constant. The frequency dependence of ?? is characterized by a primary relaxation process, whose frequency increases with increasing temperature as a consequence of decrease of the average structural relaxation time. There is strong evidence that this low-frequency dispersion arises mainly from the diffusive transport of ionic charge carriers rather than a purely orientation relaxation process. In addition, the effects of hydrostatic pressures (0-0.25 GPa) on the frequency dependencies of the real ?? and imaginary ?? parts of the dielectric constant have been measured in the temperature range from 254 to 329 K. An advantage of applying pressure is that it shifts the ?a relaxation peak into an experimentally accessible frequency window of the equipment; the lowering of frequency results from a decrease in the relaxation volume and a consequent reduction in the mobility of the molecular units. Results are discussed in terms of theoretical models of the effect of pressure on the glass transition, providing information on the cooperative dynamics (literal)
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