Representation of the Viscosity of Alkanes as a Function of Temperature and Pressure Using a Vogel Type Equation

SYNOPSISViscosity and density of homogeneous one-phase solutions (1 wt %) of polyethylenes with narrow molecular weight distributions ( M , = 2150, 15,520, 108,000, and 420,000) in npentane were determined at 398,413, and 428 K over a pressure range from 20 to 60 MPa. Measurements were done with a special falling cylinder type viscometer that permits simultaneous determination of viscosity, density, and phase state of the solutions. It is shown that the viscosities of these solutions can be correlated with density ( p ) using the exponential relationships p = A exp {B/(1 -V,p)} or p = C1 exp (C,p), which are based on free-volume considerations. Analysis of the temperature dependence of viscosity at fixed pressures, and its pressure dependence a t fixed temperatures show that the flow-activation energies for these solutions are in the range 8-12 kJ/mol, and the apparent activation volumes are in the range 30-45 cm3/mol. Evaluation of the specific viscosity and analysis of the molecular weight dependence of intrinsic viscosity in accordance with Mark-Houwink type relationship p = KM" suggest a value of 0.5 for the exponent a, which is typical of poor or theta solvents.

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High‐pressure viscosity and density of polyethylene solutions in n‐pentane

Kiran

Gokmenoglu

1995

J of Applied Polymer Sci

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Representation of the Viscosity of Alkanes as a Function of Temperature and Pressure Using a Vogel Type Equation

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High‐pressure viscosity and density of polyethylene solutions in n‐pentane

High‐pressure viscosity and density of polyethylene solutions in n‐pentane

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