Engineering
Rheology
100%
Shear Rate
100%
Shear Viscosity
100%
Extensional Flow
100%
High Strain Rate
100%
Fluid Viscosity
100%
Molecular Weight
100%
Macroscale
50%
Rates of Strain
50%
Significant Change
50%
Elevated Temperature
50%
Microfluidic Channel
50%
High Shear Rate
50%
Process Design
50%
Thinning Behavior
50%
Shear Thinning
50%
Microfibril
50%
Keyphrases
Microfluidics
100%
Rheology
100%
Salt Effect
100%
Shear Flow
100%
Methylcellulose
100%
Extensional Flow
100%
Hyperbolic Contraction
100%
Shear Rate
33%
Sodium Chloride
33%
Shear Viscosity
33%
Extensional Viscosity
33%
High Strain Rate
33%
All-solution-processed
33%
Design Process
16%
Elevated Temperature
16%
Low Molecular Weight
16%
Shear Thinning
16%
Power Law
16%
Rheological Properties
16%
Microfluidic Channel
16%
New Characterization
16%
Extension Rate
16%
High Shear Rate
16%
Shear Properties
16%
Added Salt
16%
Extension Property
16%
Microfibrils
16%
NaCl Content
16%
Wide Range of Strain Rates
16%
Rheology Study
16%
Medicine and Dentistry
Sodium Chloride
100%
Methyl Cellulose
100%
Fibril
16%
Power Law
16%
Pharmacology, Toxicology and Pharmaceutical Science
Sodium Chloride
100%
Methylcellulose
100%
Power Law
16%