Pages that link to "Item:Q2718400"

The following pages link to Contact angles for evaporating liquids predicted and compared with existing experiments (Q2718400):

Displaying 14 items.

• Kinetic effects regularize the mass-flux singularity at the contact line of a thin evaporating drop (Q1700604) (← links)
• The relation of steady evaporating drops fed by an influx and freely evaporating drops (Q1990319) (← links)
• Calculation of the heat flux near the liquid-gas-solid contact line (Q2289992) (← links)
• Evaporation, viscous flow, and electrostatic interaction of charged interfaces in the apparent contact line region (Q2787632) (← links)
• Stokes flow near the contact line of an evaporating drop (Q2863350) (← links)
• Evaporation-driven contact angles in a pure-vapor atmosphere: the effect of vapor pressure non-uniformity (Q2912372) (← links)
• Heat flow near the triple junction of an evaporating meniscus and a substrate (Q3024563) (← links)
• Nanoscale Fluid Structure of Liquid-solid-vapour Contact Lines for a Wide Range of Contact Angles (Q3451262) (← links)
• Role of solid surface structure on evaporative phase change from a completely wetting corner meniscus (Q3578548) (← links)
• Contact-line singularities resolved exclusively by the Kelvin effect: volatile liquids in air (Q4559320) (← links)
• Asymptotic analysis of the evaporation dynamics of partially wetting droplets (Q4594102) (← links)
• Numerical investigation of the role of non‐uniform evaporation rate in initiating Marangoni convection in capillary tubes (Q5699616) (← links)
• Sessile drop evaporation in a gap – crossover between diffusion-limited and phase transition-limited regime (Q5889516) (← links)
• Comparison of one-sided and diffusion-limited evaporation models for thin liquid droplets (Q6088577) (← links)