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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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Keyphrases
Low Reynolds number
100%
Polymer Solution
100%
Friction Reduction
100%
Synergistic Effect
50%
Controlled Experiment
50%
Reynolds number
50%
Normal Stress
50%
Friction Coefficient
50%
Cylindrical Hole
50%
Cavitation
50%
Weissenberg number
50%
Rheometer
50%
Non-Newtonian
50%
Viscous Effects
50%
Viscous Shear
50%
Hydrodynamic Friction
50%
Surface Texture
50%
Newtonian Fluid
50%
Sliding Motion
50%
Synergistic Coupling
50%
Motion Direction
50%
Deborah number
50%
Parallel Disks
50%
Tribo
50%
Polyisobutylene
50%
Effective Coefficients
50%
Viscous Hydrodynamics
50%
Lubricant Rheology
50%
Texture Geometry
50%
Asymmetric Angle
50%
Cavitation Effect
50%
Engineering
Normal Force
100%
Rheology
33%
Hydrodynamics
33%
Superposition
33%
Reynolds' Number
33%
Directional
33%
Experimental Investigation
33%
Rheometer
33%
Synergistic Effect
33%
Hydrodynamic Friction
33%
Newtonian Fluid
33%
Coefficient of Friction
33%
Deborah Number
33%
Sliding Motion
33%
Optimal Angle
33%
Polyisobutylene
33%
Material Science
Polymer Solution
100%
Hydrodynamics
100%
Rheology
50%
Coefficient of Friction
50%
Surface Texture
50%