VISCOSITY OF A MIXTURE OF SOFT SPHERES

被引:66
作者
EVANS, DJ
HANLEY, HJM
机构
[1] AUSTRALIAN NATL UNIV,ION,DIFFUS UNIT,CANBERRA 2600,ACT,AUSTRALIA
[2] NBS,DIV THERMOPHYS PROPERTIES,NATL ENGN LAB,BOULDER,CO 80303
来源
PHYSICAL REVIEW A | 1979年 / 20卷 / 04期
关键词
D O I
10.1103/PhysRevA.20.1648
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
The viscosity of a 50% mixture of soft spheres (i.e., particles which interact according to the force law =dr12) has been simulated by applying nonequilibrium molecular dynamics to a system of 108 particles. Results for several size (actually d) and mass differences are given and compared with the predictions of a conformal-solution Van der Waals 1 theory. To construct this theory, it was necessary to derive a mixing rule for the mass. Overall, agreement between theory and simulation is satisfactory to size differences of about 14% and to mass differences of about 5%. It is pointed out that nonequilibrium molecular dynamics is a powerful technique and appears well suited to this particular application: The simulated viscosity of the mixture can be obtained to within about 5% accuracy for the 108-particle system by applying a shear to the system and following its behavior for about 7000 time steps. © 1979 The American Physical Society.
引用
收藏
页码:1648 / 1654
页数:7
相关论文
共 22 条
[1]   SHEAR VISCOSITY VIA PERIODIC NONEQUILIBRIUM MOLECULAR-DYNAMICS [J].
ASHURST, WT ;
HOOVER, WG .
PHYSICS LETTERS A, 1977, 61 (03) :175-177
[2]   DENSE-FLUID SHEAR VISCOSITY VIA NONEQUILIBRIUM MOLECULAR-DYNAMICS [J].
ASHURST, WT ;
HOOVER, WG .
PHYSICAL REVIEW A, 1975, 11 (02) :658-678
[3]  
Ashurst WT., 1975, ADV THEORETICAL CHEM, V1, P1
[4]   Irreducible Cartesian Tensors [J].
Coope, J. A. R. ;
Snider, R. F. ;
McCourt, F. R. .
JOURNAL OF CHEMICAL PHYSICS, 1965, 43 (07) :2269-2275
[5]   DIFFUSION IN LIQUID-MIXTURES OF ISOTOPES [J].
EBBSJO, I ;
SCHOFIEL.P ;
SKOLDS, K ;
WALLER, I .
JOURNAL OF PHYSICS C-SOLID STATE PHYSICS, 1974, 7 (21) :3891-3908
[6]  
EVANS DAP, UNPUBLISHED
[7]   NONSYMMETRIC PRESSURE TENSOR IN POLYATOMIC FLUIDS [J].
EVANS, DJ .
JOURNAL OF STATISTICAL PHYSICS, 1979, 20 (05) :547-555
[8]  
GREEN HS, 1960, HDB PHYSIK, V10, P1
[9]  
GUGGENHEIM EA, 1952, MIXTURES
[10]   TRANSPORT-COEFFICIENTS IN ONE-FLUID APPROXIMATION [J].
HANLEY, HJM .
JOURNAL OF RESEARCH OF THE NATIONAL BUREAU OF STANDARDS, 1977, 82 (03) :181-182