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Viscous dissipation in die flows
Howard W. Cox, Chris Macosko
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
83
Scopus citations
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Keyphrases
Cylindrical Dies
33%
Die Design
33%
Energy Equation
33%
Energy Input
33%
Equation Model
33%
Extrudates
33%
Flow Equation
33%
Flow Geometry
33%
Heat Transfer
33%
Heat Transfer Boundary Condition
33%
IR Pyrometer
33%
Mathematical Model
33%
Maximum Temperature Rise
33%
Melt Surface
33%
Non-isothermal Flow
33%
Numerical Solution
33%
Nusselt number Correlation
33%
Polymer Melt
33%
Polymer Processing
33%
Pressure Drop
33%
Process Modeling
33%
Radial Temperature Gradient
33%
Slit Die
33%
Surface Temperature Rise
33%
Temperature Rise
100%
Total Mechanical Energy
33%
Viscometry
33%
Viscous Dissipation
100%
Engineering
Boundary Condition
20%
Common Method
20%
Energy Equation
20%
Energy Input
20%
Equation Model
20%
Extrudate
20%
Flow Equation
20%
Good Agreement
20%
Infrared Pyrometer
20%
Mathematical Model
20%
Maximum Temperature
20%
Mechanical Energy
20%
Numerical Solution
20%
Nusselt Number
20%
Outer Surface
20%
Pressure Drop
20%
Radial Temperature Gradient
20%
Temperature Rise
100%
Chemical Engineering
Nusselt Number
100%
Thermal Gradient
100%
Viscosity Measurement
100%