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Viscoelastic effects on the stability of wall-bounded shear flows
B. Sadanandan,
R. Sureshkumar
Research output
:
Contribution to journal
›
Article
›
peer-review
24
Scopus citations
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Dive into the research topics of 'Viscoelastic effects on the stability of wall-bounded shear flows'. Together they form a unique fingerprint.
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Engineering & Materials Science
Shear flow
100%
Elasticity
71%
Shear stress
71%
Viscosity
41%
Newtonian liquids
40%
Polymers
37%
Direct numerical simulation
32%
Drag reduction
31%
Vorticity
29%
Molecular weight
29%
Surface active agents
28%
Kinetic energy
27%
Dissolution
27%
Flow velocity
26%
Reynolds number
21%
Liquids
17%
Mathematics
Shear Flow
98%
Perturbation
53%
Shear Stress
49%
Elasticity
35%
Polymers
26%
Liquid
24%
Viscosity
24%
Drag Reduction
22%
Surfactant
18%
Direct numerical Simulation
18%
Dissolution
17%
Approximately equal
17%
Poiseuille Flow
17%
Kinetic energy
15%
Reynolds number
13%
Vorticity
13%
Disturbance
12%
Time Scales
11%
Critical value
11%
Decrease
11%
Influence
9%
Curve
7%
Physics & Astronomy
shear flow
76%
perturbation
51%
shear stress
35%
elastic properties
29%
induced drag
20%
viscosity
18%
base flow
17%
energy budgets
17%
drag reduction
16%
destabilization
15%
polymers
15%
liquids
13%
laminar flow
13%
direct numerical simulation
12%
vorticity
12%
molecular weight
12%
surfactants
12%
dissolving
11%
disturbances
11%
Reynolds number
10%
flow velocity
10%
kinetic energy
10%
causes
7%
curves
7%
Chemical Compounds
Shear Stress
92%
Flow
49%
Reynolds Number
35%
Kinetic Energy
29%
Molecular Weight (Polymers)
29%
Liquid
27%
Solvent
24%
Velocity
21%
Dissolution
19%
Surfactant
17%
Simulation
16%
Reduction
11%
Time
9%