Effect of wall deformability on the stability of shear-imposed film flow past an inclined plane
From MaRDI portal
Publication:2183784
DOI10.1016/J.IJENGSCI.2020.103243OpenAlexW3008199671MaRDI QIDQ2183784
Gaurav Sharma, Mahendra Baingne
Publication date: 27 May 2020
Published in: International Journal of Engineering Science (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ijengsci.2020.103243
Related Items (1)
Uses Software
Cites Work
- Unnamed Item
- Falling film on a flexible wall in the presence of insoluble surfactant
- Finite amplitude waves superimposed on pseudoplanar motions for Mooney-Rivlin viscoelastic solids
- Universal motions for a class of viscoelastic materials of differential type
- Finite-amplitude inhomogeneous waves in mooney --- rivlin viscoelastic solids
- Thermodynamics, stability and nonlinear oscillations of viscoelastic solids. I: Differential type solids of second grade
- Stability of pressure-driven flow in a deformable neo-Hookean channel
- Introduction to Hydrodynamic Stability
- A dynamical instability due to fluid–wall coupling lowers the transition Reynolds number in the flow through a flexible tube
- Stability of fluid flow through deformable neo-Hookean tubes
- Wave formation in laminar flow down an inclined plane
- The mechanism for the long-wave instability in thin liquid films
- Stability of gravity-driven free-surface flow past a deformable solid at zero and finite Reynolds number
- Instability of creeping Couette flow past a neo-Hookean solid
- Effect of surfactant on the long-wave instability of a shear-imposed liquid flow down an inclined plane
- Enhancement or suppression of instability in a two-layered liquid film flow
- Suppression of instability in a liquid film flow
- Suppression of the Kapitza instability in confined falling liquid films
- Effect of surfactant on the stability of film flow down an inclined plane
- Stability of pressure-driven creeping flows in channels lined with a nonlinear elastic solid
- Rupture of a Surfactant-Covered Thin Liquid Film on a Flexible Wall
- Consistent formulations for stability of fluid flow through deformable channels and tubes
- A multifold reduction in the transition Reynolds number, and ultra-fast mixing, in a micro-channel due to a dynamical instability induced by a soft wall
- C<scp>OATING</scp> F<scp>LOWS</scp>
- Stability of Liquid Flow down an Inclined Plane
- Suppressing falling film instabilities by Marangoni forces
- Instability of gravity-driven free-surface flow past a deformable elastic solid
This page was built for publication: Effect of wall deformability on the stability of shear-imposed film flow past an inclined plane
