Slow motion of spherical droplet in a micropolar fluid flow perpendicular to a planar solid surface
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Publication:1670089
DOI10.1016/j.euromechflu.2014.04.010zbMath1408.76012OpenAlexW2013703140MaRDI QIDQ1670089
Publication date: 4 September 2018
Published in: European Journal of Mechanics. B. Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechflu.2014.04.010
Related Items (5)
Stokes flow of micropolar fluid past a viscous fluid spheroid with non-zero boundary condition for microrotation ⋮ Motion of a viscous droplet bisecting a free surface of a semi-infinite micropolar fluid ⋮ Wall effects on viscous fluid spheroidal droplet in a micropolar fluid spheroidal cavity ⋮ Stokes Flow of Viscous Fluid Past a Micropolar Fluid Spheroid ⋮ Motion of a slip spherical particle near a planar micropolar-viscous interface
Cites Work
- Unnamed Item
- Cell models for micropolar flow past a viscous fluid sphere
- Slow motion of a sphere moving normal to two infinite parallel plane walls in a micropolar fluid
- Slip at the surface of a sphere translating perpendicular to a plane wall in micropolar fluid
- On the motion of a micropolar fluid drop in a viscous fluid
- Micropolar fluids. Theory and applications
- On hydrodynamic boundary conditions for microstructural fluids
- Algebraic and exponential instabilities in a sheared micropolar granular fluid
- Slip at the surface of an oscillating spheroidal particle in a micropolar fluid
- Flow of a Micropolar Fluid Past a Newtonian Fluid Sphere
- Low reynolds number motion of a droplet between two parallel plates
- A strong interaction theory for the creeping motion of a sphere between plane parallel boundaries. Part 1. Perpendicular motion
- A strong interaction theory for the creeping motion of a sphere between plane parallel boundaries. Part 2. Parallel motion
- Drag on an axially symmetric body in the Stokes’ flow of micropolar fluid
- Stokes flow past finite coaxial clusters of spheres in a circular cylinder
- Fluid Mechanical Aspects of Antisymmetric Stress
- Drag on spheres in micropolar fluids with non-zero boundary conditions for microrotations
- A model for red blood cell motion in bifurcating microvessels
- Asymmetric hydromechanics
- Lubrication Theory for Micropolar Fluids
- The flow in and around a droplet or bubble submerged in an unbound arbitrary velocity field
- A new technique for treating multiparticle slow viscous flow: axisymmetric flow past spheres and spheroids
- Micropolar Flow past a Slightly Deformed Fluid Sphere
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