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The thermo-wetting instability driving Leidenfrost film collapse
Tom Y. Zhao,
Neelesh A. Patankar
*
*
Corresponding author for this work
Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
10
Scopus citations
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INIS
vapors
100%
films
87%
liquids
62%
surfaces
50%
fluids
50%
instability
37%
wettability
25%
capture
12%
solids
12%
stability
12%
interfaces
12%
interactions
12%
electronic equipment
12%
dynamics
12%
control
12%
length
12%
substrates
12%
transport
12%
power
12%
experimental data
12%
drag
12%
van der waals forces
12%
droplets
12%
nucleation
12%
roughness
12%
quenching
12%
evaporation
12%
surface tension
12%
critical temperature
12%
rayleigh-taylor instability
12%
dimensionless numbers
12%
Engineering
Fluid
50%
Models
25%
Bulk Liquid
12%
Length Scale
12%
Evaporation
12%
Linear Stability Analysis
12%
Tension Surface
12%
Ambient Pressure
12%
Liquid Droplet
12%
Mathematical Expression
12%
Giving Rise
12%
System Pressure
12%
Surface Wettability
12%
Pressure Surface
12%
Thermal Control
12%
Nucleation Rate
12%
Heated Surface
12%
Dimensionless Number
12%
Experiments
12%
Surfaces
12%
Drives
12%
Generates
12%
Mechanisms
12%
Electronic Devices
12%
Substrates
12%
Physics
Stability
37%
Collapse
37%
Wetting
25%
Model
25%
Liquids
25%
Manipulator
12%
Evaporation
12%
Critical Temperature
12%
Vapor Phase
12%
Surface Roughness
12%
Wettability
12%
Taylor Instability
12%
Liquid-Vapor Interface
12%
Dimensionless Number
12%
Solid State
12%
Substrates
12%
Drag
12%