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Low Reynolds number friction reduction with polymers and textures
Jonathon K. Schuh,
Randy H. Ewoldt
Mechanical Science and Engineering
Materials Research Lab
Beckman Institute for Advanced Science and Technology
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peer-review
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Mathematics
Low Reynolds number
90%
Texture
80%
Polymers
66%
Friction
65%
Polymer Solution
47%
Cavitation
44%
Hydrodynamics
32%
Surface Texture
28%
Angle
27%
Rheology
22%
Newtonian Fluid
19%
Reynolds number
16%
Superposition
16%
Experiment
12%
Coefficient
8%
Physics & Astronomy
friction reduction
100%
low Reynolds number
71%
textures
53%
polymers
37%
cavitation flow
24%
oils
23%
hydrodynamics
19%
polyisobutylene
18%
shear
17%
rheometers
15%
Newtonian fluids
14%
thrust
14%
lubricants
14%
rheology
13%
coefficient of friction
12%
sliding
12%
Reynolds number
10%
asymmetry
9%
geometry
7%
Chemical Compounds
Reynolds Number
88%
Crystalline Texture
62%
Force
43%
Cavitation
40%
Hydrodynamics
30%
Shear
29%
Reduction
29%
X-Ray Weissenberg
24%
Asymmetry
17%
Rheology
14%
Engineering & Materials Science
Reynolds number
54%
Textures
51%
Polymers
47%
Polymer solutions
34%
Cavitation
28%
Hydrodynamics
22%
Oils
16%
Rheometers
15%
Rheology
14%
Lubricants
12%
Fluids
8%
Geometry
7%
Experiments
4%