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Gas-cushioned droplet impacts with a thin layer of porous media
Peter D. Hicks
, Richard Purvis
Engineering
Centre for Energy Transition
University of East Anglia
Research output
:
Contribution to journal
›
Article
›
peer-review
12
Citations (Scopus)
13
Downloads (Pure)
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Dive into the research topics of 'Gas-cushioned droplet impacts with a thin layer of porous media'. Together they form a unique fingerprint.
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Mathematics
Droplet
100%
Thin Layer
99%
Substrate
88%
Porous Media
74%
Gas
71%
Permeability
32%
Free Surface
22%
Entrainment
10%
Surface Roughness
10%
Approximation
10%
Mm
9%
Rough Surface
9%
Flat Plate
8%
Pathway
8%
Bubble
8%
Surface Tension
7%
Degeneracy
7%
Water
6%
Immediately
6%
Eliminate
6%
Horizontal
6%
Regularization
5%
Radius
5%
Prediction
5%
Range of data
4%
Model
2%
Engineering & Materials Science
Porous materials
74%
Substrates
53%
Gases
43%
Squeeze films
18%
Superhydrophilicity
11%
Superhydrophobicity
9%
Surface tension
7%
Surface roughness
5%
Air
3%
Water
3%