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Mutual Interactions between Crystallization and Flow in Polypropylene
Josef Friedrich Pühringer
R&D-Headquarters
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Doctoral Thesis
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Dive into the research topics of 'Mutual Interactions between Crystallization and Flow in Polypropylene'. Together they form a unique fingerprint.
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Keyphrases
Polypropylene
100%
Mutual Interaction
100%
Polarization Signal
100%
Crystallization
100%
Decay Time
80%
Polymer Melt
60%
Total Intensity
60%
Depolarization
60%
Birefringent
40%
Microtome Cuts
40%
Spherulite
40%
High Pressure
20%
Melting Temperature
20%
Low Pressure
20%
Injection-molded Parts
20%
Borealis
20%
Pressure Drop
20%
Processing Route
20%
Layered Structure
20%
Crystallization Process
20%
Temperature Profile
20%
Flow Properties
20%
Applied Pressure
20%
One-group
20%
Small Changes
20%
Temperature Control
20%
Linearly Polarized
20%
Short Decay Time
20%
Similar Shape
20%
Constant Pressure
20%
Number Density
20%
Solidified Material
20%
Polarization Direction
20%
Crystal Layer
20%
Flow Pattern
20%
Polarization State
20%
Complex Patterns
20%
Crystallization Conditions
20%
Shear Experiment
20%
Polarizer
20%
Practical Investigations
20%
Crystallization Phenomenon
20%
Intensity Curve
20%
Rectangular Duct
20%
Flow Phenomena
20%
Transcrystalline Layer
20%
Time Lead
20%
Transmitted Light
20%
Center Region
20%
Red Light
20%
Crystallization Kinetics
20%
Engineering
Decay Time
100%
Mutual Interaction
100%
Duct
40%
Spherulites
40%
Lead Time
20%
Melting Temperature
20%
Injection Molded Part
20%
Experimental Result
20%
Good Correlation
20%
Sample Surface
20%
Layered Structure
20%
Model Experiment
20%
Flow Property
20%
Applied Pressure
20%
Stronger Effect
20%
Temperature Profile
20%
Polarization Direction
20%
Flow Pattern
20%
Constant Pressure Drop
20%
Rectangular Duct
20%
Number Density
20%
Red Light
20%
Model Material
20%
Polarization State
20%
Material Science
Polypropylene
100%
Polymer Melt
100%
Density
33%
Crystalline Material
33%
Crystallization Kinetics
33%
Chemical Engineering
Polypropylene
100%