Pages that link to "Item:Q4471089"

The following pages link to Modelling drainage of the precorneal tear film after a blink (Q4471089):

Displaying 25 items.

• The effect of the lipid layer on tear film behaviour (Q263690) (← links)
• Effects of velocity slip on the inertialess instability of a contaminated two-layer film flow (Q500431) (← links)
• The effect of polar lipids on tear film dynamics (Q545629) (← links)
• Dynamics of fluorescent imaging for rapid tear thinning (Q670614) (← links)
• Coupling fluid and solute dynamics within the ocular surface tear film: a modelling study of black line osmolarity (Q692479) (← links)
• Bessel function model of corneal topography (Q907566) (← links)
• The fluid mechanics of shear-thinning tear substitutes (Q1046001) (← links)
• Tear film dynamics with evaporation, osmolarity and surfactant transport (Q1634987) (← links)
• Influence of curvature on tear film dynamics (Q1672260) (← links)
• Thin film dynamics on a prolate spheroid with application to the cornea (Q1990328) (← links)
• 2D numerical simulation of tear film dynamics: effects of shear-thinning properties (Q2058294) (← links)
• On a nonlinear boundary value problem modeling corneal shape (Q2338757) (← links)
• Thin-film flows near isolated humps and interior corners (Q2566876) (← links)
• Dynamics of a pre-lens tear film after a blink: Model, evolution, and rupture (Q2945326) (← links)
• Tear film dynamics with evaporation, wetting, and time-dependent flux boundary condition on an eye-shaped domain (Q2947719) (← links)
• A model for wetting and evaporation of a post-blink precorneal tear film (Q3160699) (← links)
• Heat transfer and tear film dynamics over multiple blink cycles (Q3193290) (← links)
• Nonlinear parameter identification in a corneal geometry model (Q3456535) (← links)
• Tear film dynamics on an eye-shaped domain. Part 2. Flux boundary conditions (Q3573224) (← links)
• The influence of non-polar lipids on tear film dynamics (Q5171938) (← links)
• Modelling the evaporation of a tear film over a contact lens (Q5261620) (← links)
• Reduced Models for Thick Liquid Layers with Inertia on Highly Curved Substrates (Q5268003) (← links)
• Model problems for the tear film in a blink cycle: single-equation models (Q5308057) (← links)
• An efficient adaptive multigrid algorithm for predicting thin film flow on surfaces containing localised topographic features (Q5962137) (← links)
• On modeling tear breakup dynamics with a nematic lipid layer (Q6594224) (← links)