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Drop impact onto attached metallic meshes: liquid penetration and spreading
Cristina Boscariol
, Sanjeev Chandra
,
Dipak Sarker
, Cyril Crua
, Marco Marengo
Advanced Engineering Centre
University of Brighton
Centre for Lifelong Health
Centre for Regenerative Medicine and Devices
Environment and Public Health Research Excellence Group
Applied Chemical Sciences Research Excellence Group
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Dive into the research topics of 'Drop impact onto attached metallic meshes: liquid penetration and spreading'. Together they form a unique fingerprint.
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Keyphrases
Pore Size
100%
Liquid Penetration
100%
Drop Impact
100%
Metallic Mesh
100%
Liquid Spreading
100%
Imbibition
66%
High-velocity Impact
66%
Filtration
33%
Glycerol
33%
Reynolds number
33%
Textile
33%
Low Viscosity
33%
Reconstructive Surgery
33%
Weber number
33%
Therapeutic Delivery
33%
Large Dimension
33%
Droplet Impact
33%
Porous Matter
33%
Acetone-water
33%
Porous Surface
33%
Paper Coating
33%
Solid Substrate
33%
Porous Layer
33%
Droplet Splashing
33%
2D Structure
33%
Weave Structure
33%
Coating Design
33%
Wire Size
33%
Wire Diameter
33%
Dimensionless numbers
33%
Engineering
High Impact Velocity
100%
Porosity
100%
Reynolds' Number
50%
Porous Layer
50%
Dimensionless Number
50%
Material Science
Pore Size
100%
Surface (Surface Science)
50%
Glycerol
50%
Chemical Engineering
Paper Coating
100%