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Fast evaporation of spreading droplets of colloidal suspensions
Kara L. Maki, Satish Kumar
Chemical Engineering and Materials Science
Research output
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Contribution to journal
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Article
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peer-review
138
Scopus citations
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Dive into the research topics of 'Fast evaporation of spreading droplets of colloidal suspensions'. Together they form a unique fingerprint.
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Keyphrases
Viscosity
100%
Particle Concentration
100%
Coffee
100%
Colloidal Suspension
100%
Colloidal Particles
100%
Skin Formation
100%
Fast Evaporation
100%
Gas Phase
50%
Mathematical Model
50%
Air-liquid Interface
50%
Rheology
50%
Marangoni Flow
50%
Peclet number
50%
Solute
50%
Large Particle
50%
Liquid Phase
50%
Convection-diffusion Equation
50%
Model Equation
50%
Coupled Models
50%
Highly Coupled
50%
Precursor Film
50%
Left behind
50%
Rate of Spread
50%
Finite Difference Scheme
50%
Mass Conservation Equation
50%
Lubrication Approximation
50%
Momentum Conservation Equation
50%
Droplet Dynamics
50%
Droplet Evaporation
50%
Capillarity
50%
Coffee Ring
50%
Transferred out
50%
Countertop
50%
Moving Overlapping Grids
50%
Coffee-ring Effect
50%
Axisymmetric Droplet
50%
Pinned Contact Line
50%
Engineering
Particle Concentration
100%
Colloidal Suspension
100%
Fluid Viscosity
100%
Colloidal Particle
100%
Rheology
50%
Gas-Phase
50%
Axisymmetric
50%
Simplifies
50%
Coupled Model
50%
Momentum Conservation
50%
Mass Conservation
50%
Spreading Rate
50%
Capillarity
50%
Pinned Contact Line
50%
Air Interface
50%
Marangoni Flow
50%
Diffusion Equation
50%
Peclet Number
50%
Liquid Phase
50%
Conservation Equation
50%
Prior Model
50%
Mathematical Model
50%