Shear viscosity of liquid mixtures in the hard-sphere approximation

The thermodynamics of a two-component fluid with a hard core interaction and screened Coulomb (Yukawa) interaction between particles, similar to the primitive model of an electrolyte solution, adsorbed in a disordered matrix of hard spheres, is studied by using replica Ornstein-Zernike integral equa

and the viscosity from Brownian motion denoted here as the The shear properties of Brownian, rigid spheres consisting of sterielastic-like viscosity, h (e) , cally stabilized, crosslinked polymethylmethacrylate (PMMA) particles were studied in suspension. Three different volume fractions were used t

An analytical solution of Wertheim's associative Percus-Yevick ( APY) approximation for the n-component mixture of dimerizing hard spheres is presented. The solution is illustrated by the numerical results obtained for the two-component mixture with associative interaction only between particles of

An analytical solution of the two-density Ornstein-Zernike equation closed by the associative Percus-Yevick approximation for the multicomponent mixture of dimerizing adhesive hard spheres (DAHS) is obtained in closed form. This is the generalization of the previous solution for the one-component DA