Viscoelastic behaviour of fluids with steeply repulsive potentials
Title:
Viscoelastic behaviour of fluids with steeply repulsive potentials
Author:
Powles, Jack G. Heyes, David M.
Appeared in:
Molecular physics
Paging:
Volume 98 (2000) nr. 14 pages 917-927
Year:
2000-07-20
Contents:
We analyse the shear stress, Cs(t) and pressure or 'bulk', Cb(t) time-correlation functions for steeply repulsive inverse power fluids (SRP) in which the particles interact via a pair potential with the analytic form, phi(r) = epsilon(sigma/r) n , in a new approach to the understanding of their viscoelastic properties. We show analytically, and confirm by molecular dynamics simulations, that close to the hard-sphere limit both these time-correlation functions have the analytic form, Cs(t)/Cs(0) and Cb(t)/Cb(0) = 1-T *(nt*)2+ O((nt*)4), where T* = kBT/epsilon, is the reduced temperature, kB is Boltzmann's constant and t* = (epsilon/m sigma2)1/2 t is the reduced time. This leads to an alternative and much simpler derivation of formulae for the shear and bulk viscosities which for the limiting case of hard spheres are numerically very close to the traditional Enskog relations. These simple relations for the finite and continuous SRP interaction are in satisfactory agreement with the essentially exact molecular dynamics simulation results for ca. n > 18.