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Canonical distribution functions in polymer dynamics. (I). Dilute solutions of flexible polymers

Canonical distribution functions in polymer dynamics. (I). Dilute solutions of flexible polymers
Canonical distribution functions in polymer dynamics. (I). Dilute solutions of flexible polymers
The quasi-equilibrium or maximum entropy approximation is applied. in order to derive constitutive equations from kinetic models of polymer dynamics. It is shown in general and illustrated for an example how canonical distribution functions are obtained from the maximum entropy principle, how macroscopic and constitutive equations are derived therefrom and how these constitutive equations can be implemented numerically. In addition, a measure for the accuracy of the quasi-equilibrium approximation is proposed that can be evaluated while integrating the constitutive equations. In the example considered, it is confirmed that the accuracy of the approximation is increased by including more macroscopic variables. In steady elongational flow, it is found that more macroscopic variables need to be included above the coil-stretch transition to achieve the same accuracy as below.
0378-4371
367-385
Ilg, P.
d373331e-d3b5-4831-abdc-fb1597ac1bbe
Karlin, I.V.
3f0e01a2-c4d9-4210-9ef3-47e6c426cc8a
Ottinger, H.C.
d55d7165-ee2d-4878-a095-e2b6d13d1a8c
Ilg, P.
d373331e-d3b5-4831-abdc-fb1597ac1bbe
Karlin, I.V.
3f0e01a2-c4d9-4210-9ef3-47e6c426cc8a
Ottinger, H.C.
d55d7165-ee2d-4878-a095-e2b6d13d1a8c

Ilg, P., Karlin, I.V. and Ottinger, H.C. (2002) Canonical distribution functions in polymer dynamics. (I). Dilute solutions of flexible polymers. Physica A: Statistical Mechanics and its Applications, 315 (3-4), 367-385. (doi:10.1016/S0378-4371(02)01017-8).

Record type: Article

Abstract

The quasi-equilibrium or maximum entropy approximation is applied. in order to derive constitutive equations from kinetic models of polymer dynamics. It is shown in general and illustrated for an example how canonical distribution functions are obtained from the maximum entropy principle, how macroscopic and constitutive equations are derived therefrom and how these constitutive equations can be implemented numerically. In addition, a measure for the accuracy of the quasi-equilibrium approximation is proposed that can be evaluated while integrating the constitutive equations. In the example considered, it is confirmed that the accuracy of the approximation is increased by including more macroscopic variables. In steady elongational flow, it is found that more macroscopic variables need to be included above the coil-stretch transition to achieve the same accuracy as below.

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Published date: 1 December 2002

Identifiers

Local EPrints ID: 49173
URI: http://eprints.soton.ac.uk/id/eprint/49173
DOI: doi:10.1016/S0378-4371(02)01017-8
ISSN: 0378-4371
PURE UUID: c3393527-cded-4b6c-bfb0-ea10cc505eec

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Date deposited: 24 Oct 2007
Last modified: 15 Mar 2024 09:53

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Contributors

Author: P. Ilg
Author: I.V. Karlin
Author: H.C. Ottinger

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