English

Driven colloidal suspensions in confinement and density functional theory: Microstructure and wall-slip

Statistical Mechanics 2015-06-18 v1 Soft Condensed Matter

Abstract

We theoretically investigate general properties of driven (sheared) colloidal suspensions in confinement, based on methods of classical density functional theory. In the absence of an exact closed (Smoluchowski-) equation for the one-particle density under shear, we formulate a set of general conditions for approximations, and show that a simple closure fulfills them. The exact microscopic stress tensor is identified. Exemplifying the situation near a wall (oriented parallel to the direction of shear), we note that the microscopic shear stress is not necessarily homogeneous. Formulating a second equation additional to the Smoluchowski equation, we achieve a homogeneous shear stress, and thereby compute the local flow velocity near the wall. This finally leads to a slip length of the complex fluid at the wall.

Keywords

Cite

@article{arxiv.1402.1628,
  title  = {Driven colloidal suspensions in confinement and density functional theory: Microstructure and wall-slip},
  author = {Artem A. Aerov and Matthias Krüger},
  journal= {arXiv preprint arXiv:1402.1628},
  year   = {2015}
}

Comments

11 pages, 8 figures

R2 v1 2026-06-22T03:03:30.627Z