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Molecular network model for the rheology of gelling polymer solutions
A. S. Chu, R. K. Prud'homme
Chemical & Biological Engineering
Princeton Entrepreneurship Council
Princeton Materials Institute
Research output
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Contribution to journal
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Article
›
peer-review
2
Scopus citations
Overview
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Dive into the research topics of 'Molecular network model for the rheology of gelling polymer solutions'. Together they form a unique fingerprint.
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Mathematics
Polymer Solution
100%
Rheology
94%
Network Model
78%
Predict
63%
Shear Viscosity
52%
Shear Thinning
52%
Gelation
50%
Reaction Kinetics
48%
Overshoot
45%
Chemical Kinetics
44%
Shear Flow
43%
Simulation
42%
Chemical Reaction
39%
Metals
38%
Polymers
34%
Molecules
33%
Viscosity
31%
History
30%
Modulus
29%
Fluid
26%
Model
22%
Framework
19%
Engineering & Materials Science
Polymer solutions
90%
Rheology
76%
Transition metals
24%
Metal ions
24%
Shear viscosity
24%
Gelation
23%
Shear thinning
22%
Fracturing fluids
22%
Shear flow
21%
Oil wells
20%
Birds
19%
Reaction kinetics
18%
Gels
17%
Molecules
16%
Elastic moduli
14%
Viscosity
13%
Polymers
12%
Physics & Astronomy
rheology
71%
fracturing
43%
polymers
39%
reaction kinetics
30%
viscosity
24%
birds
22%
gelation
20%
shear thinning
20%
metal ions
18%
shear flow
16%
chemical reactions
15%
oils
15%
transition metals
14%
histories
13%
gels
13%
simulation
12%
fluids
10%
molecules
9%
Chemical Compounds
Rheology
61%
Oil Well
49%
Simulation
42%
Storage Modulus
36%
Shear
31%
Transition Element
24%
Flow
21%
Metal Ion
21%
Gel
21%
Time
12%
Molecule
11%