Frictional properties of dilute polymer solutions. I. Rotational friction coefficient
- 15 March 1975
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 62 (6) , 2391-2397
- https://doi.org/10.1063/1.430764
Abstract
The theory of Debye and Bueche for the frictional properties of dilute polymer solutions is placed on a microscopic basis. It is shown that the microscopic foundations for the theories of Debye−Bueche and Kirkwood−Riseman are identical, but that the theories differ in their statistical analysis. The Debye−Bueche equations are applied to the rotational friction coefficient of a spherically symmetric polymer with arbitrary radial density distribution. An exact result is derived for a Gaussian distribution of low density. A variational principle of minimum energy dissipation is formulated which is suitable for numerical work.Keywords
This publication has 18 references indexed in Scilit:
- Theoretical basis for the Rouse-Zimm model in polymer solution dynamicsThe Journal of Chemical Physics, 1974
- Dynamics of polymer molecules in dilute solutionsThe Journal of Chemical Physics, 1973
- Hydrodynamic Properties of a Plane-Polygonal Polymer, According to Kirkwood–Riseman TheoryThe Journal of Chemical Physics, 1969
- Translational Diffusion Coefficient of a Plane Polygonal PolymerThe Journal of Chemical Physics, 1968
- Irreversible processes in solutions of chain polymersPublished by Springer Nature ,1968
- Perturbation Theory of the Intrinsic Viscosity of Polymer ChainsThe Journal of Chemical Physics, 1966
- Intrinsic Viscosity of Polymer ChainsThe Journal of Chemical Physics, 1965
- The Viscoelastic Properties of PlasticsThe Journal of Chemical Physics, 1954
- Notes on the theory of high polymer solutionsJournal of Polymer Science, 1951
- A calculation of the viscous force exerted by a flowing fluid on a dense swarm of particlesFlow, Turbulence and Combustion, 1949