Add to ORKGNumerical results are presented for the approach of a rigid sphere normal to a deformable fluid-fluid interface in the velocity range for which inertial effects may be neglected. Both the case of a sphere moving with constant velocity, and that of a sphere moving under the action of a constant non-hydrodynamic body force are considered for several values of the viscosity ratio, density difference and interfacial tension between the two fluids. Two distinct modes of interface deformation are demonstrated: a film drainage mode in which fluid drains away in front of the sphere leaving an ever-thinning film, and a tailing mode where the sphere passes several radii beyond the plane of the initially undeformed interface, while remaining encapsula...
We investigate theoretically the drainage of a thin liquid film confined between two hydrophobic sph...
A general solution for Stokes’ equation in bipolar co-ordinates is derived, and then applied to the ...
The present study examines the motion of a slender body in the presence of a plane fluid–fluid inter...
The motion of a sphere in the presence of a fluid-fluid interface is studied. First, a solution is d...
The low-Reynolds-number gravitational settling of a sphere through a fluid interface is investigated...
We compare the low Reynolds number approach of rigid spheres and deformable droplets of similar size...
The drainage process of a thin liq. films between 2 droplets of low viscosity is analyzed to specify...
The effect of the constant relative approach velocity of two Newtonian fluid particles on their coal...
The drainage of the non-Newtonian film between two approaching fluid particles are studied. The non-...
The general problems of particle motion in the vicinity of a flat, non-deforming fluid interface is ...
The dynamics of particles attached to an interface separating two immiscible fluids are encountered ...
The interaction between deformable drops or bubbles encompasses a number of distinguishing character...
http://dx.doi.org/10.1007/s10404-011-0906-2In the lubrication limit, the time needed for the drainag...
We report on the transport of a rigid sphere through the fluid-fluid interface of a demixed colloid-...
In this paper we report on the gravity-driven transport of rigid spheres of various sizes through th...
We investigate theoretically the drainage of a thin liquid film confined between two hydrophobic sph...
A general solution for Stokes’ equation in bipolar co-ordinates is derived, and then applied to the ...
The present study examines the motion of a slender body in the presence of a plane fluid–fluid inter...
The motion of a sphere in the presence of a fluid-fluid interface is studied. First, a solution is d...
The low-Reynolds-number gravitational settling of a sphere through a fluid interface is investigated...
We compare the low Reynolds number approach of rigid spheres and deformable droplets of similar size...
The drainage process of a thin liq. films between 2 droplets of low viscosity is analyzed to specify...
The effect of the constant relative approach velocity of two Newtonian fluid particles on their coal...
The drainage of the non-Newtonian film between two approaching fluid particles are studied. The non-...
The general problems of particle motion in the vicinity of a flat, non-deforming fluid interface is ...
The dynamics of particles attached to an interface separating two immiscible fluids are encountered ...
The interaction between deformable drops or bubbles encompasses a number of distinguishing character...
http://dx.doi.org/10.1007/s10404-011-0906-2In the lubrication limit, the time needed for the drainag...
We report on the transport of a rigid sphere through the fluid-fluid interface of a demixed colloid-...
In this paper we report on the gravity-driven transport of rigid spheres of various sizes through th...
We investigate theoretically the drainage of a thin liquid film confined between two hydrophobic sph...
A general solution for Stokes’ equation in bipolar co-ordinates is derived, and then applied to the ...
The present study examines the motion of a slender body in the presence of a plane fluid–fluid inter...