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Strain hardening in polypropylenes and its role in extrusion foaming
Pieter Spitael, Chris Macosko
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
253
Scopus citations
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Keyphrases
Polypropylene
100%
Strain Hardening
100%
Extrusion Foaming
100%
Cell Concentration
80%
Branched Polypropylene
80%
Branched Polymer
60%
Linear Polymers
40%
Bulk Density
20%
Carbon Dioxide
20%
Cell-to-cell
20%
Twin-screw Extrusion
20%
Isotactic Polypropylene
20%
Cell Size
20%
Corotation
20%
Extensional Viscosity
20%
Uniaxial Extensional Viscosity
20%
Foaming Process
20%
Blowing Agent
20%
Gear Pump
20%
Neat Polymers
20%
Foam Processing
20%
Extrusion Line
20%
Polypropylene Polymers
20%
Engineering
Strain Hardening
100%
Cell Concentration
80%
Linear Polymer
40%
Fluid Viscosity
40%
Neat Polymer
20%
Bulk Density
20%
Gear Pump
20%
Blowing Agent
20%
Material Science
Polypropylene
100%
Work Hardening
100%
Branched Polymer
33%
Density
11%
Carbon Dioxide
11%
Blowing Agent
11%