| Hintermeyer, J.; Herrmann, A.; Kahlau, R.; Goiceanu, C.; Rößler, E.: Molecular Weight Dependence of Glassy Dynamics in Linear Polymers Revisited, Macromolecules, 41(23), 93359344 (2008) | |
| Teilprojekte: A13; Z3 | |
| Abstract: Dielectric spectra of a series of polydimethylsiloxanes and polystyrenes were measured covering a wide range of molecular weights M including the monomeric limit. From spectral analysis the time constants τα(T) of the segmental dynamics are extracted, allowing determination of the glass-transition temperatures Tg(M) and τα(M) as well as the parameters D(M) and T0(M), respectively, Δ(M) = Tg − T0, of the Vogel−Fulcher−Tammann equation. In addition, we analyzed fragility m(M) including here also data on polybutadiene. It turns out that all the quantities show particularities as a function of M which are not explained by common wisdom. Tg(M) as well as T0(M) data reveal a noncontinuous M dependence with three distinct regimes which may become plausible when comparing our results with rheological and NMR data. We attribute the three regimes to simple liquid, Rouse, and entanglement dynamics, i.e., Tg(M) and T0(M) traces show kinks at the Rouse unit MR and entanglement molecular weight Me. Fragility m(M) shows only one kink at Me. This fact can be explained by the behavior of Δ(M), which increases with M in the simple liquid regime but saturates already at MR; a similar behavior is observed for the exponential prefactor τ0(M). We conclude that polymer dynamics specifically modify glassy dynamics |
Sonderforschungsbereich 481
Komplexe Makromolekül- und Hybridsysteme in inneren und äußeren Feldern
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