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Viscosity kernel of molecular fluids: Butane and polymer melts

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posted on 2024-07-26, 13:47 authored by R. M. Puscasu, Billy ToddBilly Todd, P. J. Daivis, J. S. Hansen
The wave-vector dependent shear viscosities for butane and freely jointed chains have been determined. The transverse momentum density and stress autocorrelation functions have been determined by equilibrium molecular dynamics in both atomic and molecular hydrodynamic formalisms. The density, temperature, and chain length dependencies of the reciprocal and real-space viscosity kernels are presented. We find that the density has a major effect on the shape of the kernel. The temperature range and chain lengths considered here have by contrast less impact on the overall normalized shape. Functional forms that fit the wave-vector-dependent kernel data over a large density and wave-vector range have also been tested. Finally, a structural normalization of the kernels in physical space is considered. Overall, the real-space viscosity kernel has a width of roughly 3-6 atomic diameters, which means that generalized hydrodynamics must be applied in predicting the flow properties of molecular fluids on length scales where the strain rate varies sufficiently in the order of these dimensions (e.g., nanofluidic flows).

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ISSN

1539-3755

Journal title

Physical Review E - Statistical, Nonlinear, and Soft Matter Physics

Volume

82

Issue

1

Article number

article no. 011801

Pagination

14 pp

Publisher

American Physical Society

Copyright statement

Copyright © 2010 The American Physical Society. The published version is reproduced with the permission of the publisher for non-commercial purposes only.

Language

eng

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