We consider the effect of surface roughness on solid-solid contact in a Stokes flow. Various models for the roughness are considered, and a unified methodology is given to derive the corresponding asymptotics of the drag force in the close-contact limit. In this way, we recover and clarify the various expressions that can be found in previous studies
A method of incorporating surface roughness into theoretical calculations of surface forces is prese...
In this paper, experimentally drag coefficient over sphere with roughness variation has been investi...
Determining the hydrodynamic force acting on bubbles and particles moving parallel to a wall in a sh...
We consider the effect of surface roughness on solid-solid contact in a Stokes flow. Vario...
We consider the effect of surface roughness on solid-solid contact in a Stokes flow. Various models ...
International audienceHydrodynamic interactions between particles and walls are relevant for the ope...
Though the effect of distributed roughness on flow over a sphere has been examined in detail, there ...
The influence of soft boundaries on the forces experienced by a small sphere undergoing slow transla...
Abstract The motion of a spherical particle in infinite linear flow and near a plane wall, subject t...
We give a general solution of Stokes equations for an incompressible, viscous flow past a sphere wit...
This paper describes a computational method to calculate the friction force between two rough surfac...
The effect of an isolated roughness element on the forces on a sphere was examined for a Reynolds nu...
A study of the effect of drag force on anmicropolar flow past a sphere specifying uniform velocity a...
The interaction of solid particles with a solidifying interface is studied with numerical and analyt...
In mixed lubrication the lubricant film is not sufficiently thick to prevent contact between the wor...
A method of incorporating surface roughness into theoretical calculations of surface forces is prese...
In this paper, experimentally drag coefficient over sphere with roughness variation has been investi...
Determining the hydrodynamic force acting on bubbles and particles moving parallel to a wall in a sh...
We consider the effect of surface roughness on solid-solid contact in a Stokes flow. Vario...
We consider the effect of surface roughness on solid-solid contact in a Stokes flow. Various models ...
International audienceHydrodynamic interactions between particles and walls are relevant for the ope...
Though the effect of distributed roughness on flow over a sphere has been examined in detail, there ...
The influence of soft boundaries on the forces experienced by a small sphere undergoing slow transla...
Abstract The motion of a spherical particle in infinite linear flow and near a plane wall, subject t...
We give a general solution of Stokes equations for an incompressible, viscous flow past a sphere wit...
This paper describes a computational method to calculate the friction force between two rough surfac...
The effect of an isolated roughness element on the forces on a sphere was examined for a Reynolds nu...
A study of the effect of drag force on anmicropolar flow past a sphere specifying uniform velocity a...
The interaction of solid particles with a solidifying interface is studied with numerical and analyt...
In mixed lubrication the lubricant film is not sufficiently thick to prevent contact between the wor...
A method of incorporating surface roughness into theoretical calculations of surface forces is prese...
In this paper, experimentally drag coefficient over sphere with roughness variation has been investi...
Determining the hydrodynamic force acting on bubbles and particles moving parallel to a wall in a sh...
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