ISSN:
1435-1536
Keywords:
dynamic intrinsic viscosity
;
necklace model
;
internal viscosity
;
polystyrene
;
Aroclor
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
,
Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
Notes:
Abstract The dynamic viscosity of different long chain polymers in Aroclor permits an easy extrapolation to zero concentration only in the limiting cases of Newtonian, i. e., constant viscosity at low and high frequency, respectively. The first intrinsic viscosity [η]0 is independent of any concept of the internal viscosity. In the case of polystyrene it is proportional toM 0,65 which shows that Aroclor is a good solvent for this polymer. The second intrinsic viscosity [η]∞ turns out to be independent ofM. It is best reproduced by the model where the internal viscosity resists only the deformation rate of the single link. The displacement rate of more distant beads is affected by the internal viscosity only in the case that it involves the deformation rate of the links. The angles between successive links may be changed at any rate. In the intermediate range of frequencies the extrapolation of the observed dynamic viscosity to the intrinsic value was never made. The experimental data are so much affected by the concentration, i. e., by the interaction of adjacent molecules, that no conclusion may be derived from them about the properties of the isolated macromolecule. A master curve independent ofM andc is obtained by plotting of (G″-ωη ∞)K/c overωτ 1. This means that the deformation mode in the whole molecular weight and concentration range investigated is the same. But this mode is different from that of the independent macromolecule in infinite dilution. The master curve may be described by the excess intrinsic viscosity of the Rouse model with the internal viscosity acting either between the beads on the same link only or between any distinct beads. As a consequence of the concentration effects, however, no conclusions about the properties of the single molecule can be derived from such an agreement.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01447965
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