Keyphrases
Melting Temperature
100%
Temperature Effect
100%
Non-Newtonian Fluid
100%
Coat-hanger Die
100%
Flow Network
100%
Non-isothermal Flow
100%
Extrusion Die
80%
Viscous Dissipation
60%
Brinkman number
60%
Isothermal Method
60%
Temperature Sensitivity
40%
Temperature Difference
40%
Parameter Sensitivity
40%
High Shear Rate
40%
Coat Hanger
40%
Non-isothermal Method
40%
Temperature Rise
20%
Flow Field
20%
Rheology
20%
Polymer Melt
20%
Non-Newtonian Model
20%
Flow Channel
20%
Power Law
20%
Uniform Flow
20%
Biot number
20%
Non-isothermal
20%
Rheological Model
20%
New Design Approach
20%
Velocity Uniformity
20%
Flow Uniformity
20%
Fluid Rheology
20%
Temperature-dependent Viscosity
20%
Profile Changes
20%
Fully Developed Velocity Profile
20%
Temperature Dissipation
20%
Viscosity-temperature Characteristics
20%
Non-uniform Flow
20%
Temperature Boundary Condition
20%
Engineering
Melting Temperature
100%
Extrusion Dies
100%
Newtonian Fluid
100%
Isothermal
100%
Isothermal Flow
100%
Flow Rate
75%
Fluid Viscosity
50%
Rheology
50%
High Shear Rate
50%
Sensitivity Parameter
50%
Boundary Condition
25%
Design Method
25%
Flow Field
25%
Newtonian Model
25%
Uniform Flow
25%
Biot Number
25%
Temperature Dependency
25%
Temperature Increase
25%
Flow Channel
25%
Fully Developed Velocity Profile
25%
Nonuniform Flow
25%
INIS
design
100%
fluids
100%
dies
100%
extrusion
44%
flow rate
33%
temperature dependence
33%
levels
22%
sensitivity
22%
velocity
22%
viscosity
22%
shear
22%
rheology
22%
performance
11%
comparative evaluations
11%
values
11%
power
11%
boundary conditions
11%
polymers
11%
Material Science
Rheology
100%
Polymer Melt
50%
Nonuniform Flow
50%