Rheological study of polymer flow past rough surfaces with slip boundary conditions

TitleRheological study of polymer flow past rough surfaces with slip boundary conditions
Publication TypeJournal Article
Year of Publication2008
AuthorsNiavarani, A, Priezjev, NV
JournalJournal of Chemical Physics
Volume129
Issue14
Date Published10/2008
Keywordsliquid films, molecular dynamics method, polymer melts, rheology, shear flow, slip flow, surface roughness
Abstract

The slip phenomena in thin polymer films confined by either flat or periodically corrugated surfaces are investigated by molecular dynamics and continuum simulations. For atomically flat surfaces and weak wall-fluid interactions, the shear rate dependence of the slip length has a distinct local minimum which is followed by a rapid increase at higher shear rates. For corrugated surfaces with wavelength larger than the radius of gyration of polymer chains, the effective slip length decays monotonically with increasing corrugation amplitude. At small amplitudes, this decay is reproduced accurately by the numerical solution of the Stokes equation with constant and rate-dependent local slip length. When the corrugation wavelength is comparable to the radius of gyration, the continuum predictions overestimate the effective slip length obtained from molecular dynamics simulations. The analysis of the conformational properties indicates that polymer chains tend to stretch in the direction of shear flow above the crests of the wavy surface.