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Microfluidics approach to investigate foam hysteretic behaviour
Leslie Labarre, Daniele Vigolo
Chemical Engineering
Research output
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Contribution to journal
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Article
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peer-review
3
Citations (Scopus)
151
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Engineering & Materials Science
Microfluidics
100%
Foams
90%
Hysteresis
32%
Recovery
17%
Viscosity
13%
Sodium dodecyl sulfate
12%
Liquids
11%
Bamboo
10%
Biological systems
9%
Schematic diagrams
9%
Gases
9%
Microchannels
9%
Elasticity
7%
Industrial applications
7%
Physics & Astronomy
foams
92%
hysteresis
26%
recovery
20%
gas pressure
16%
viscosity
12%
sodium sulfates
11%
microfluidic devices
10%
circuit diagrams
10%
food
9%
ramps
9%
liquids
9%
microchannels
9%
aqueous solutions
7%
bubbles
6%
elastic properties
6%
cycles
5%
evaluation
5%
energy
2%
Chemistry
Foam
85%
Hysteresis
37%
Pressure
27%
Liquid
10%
Gas
9%
Bubble
9%
Sodium Dodecyl Sulfate
8%
Food
6%
Aqueous Solution
4%
Energy
4%
Time
3%
Surface
3%
Application
2%