Peroxide Induced and Thermal Degradation of Polypropylene
-
K. Ebner
Abstract
An experimental study of the peroxide induced degradation of polypropylene is described. Experimental studies in a batch mixer, a single screw extruder and in a Leistritz modular counter-rotating twin screw extruder are presented. Three different screw configurations were used in the latter machine. When comparisons are made at the same temperature, peroxide level and residence time, the greatest extent of degradation is found in the twin screw extruder and the poorest in the single screw extruder. These differences seem associated with the rapid effective melting in the twin screw extruder and the slow melting and poor mixing in the single screw extruder. Of the three modular twin screw configurations, the configuration containing no intense shearing elements is most effective. Experiments based on removing the modular screw and following the reaction as a function of position suggests that Leistritz shearing elements cause rapid heating and reaction of the peroxide before it is mixed into the polypropylene matrix.
© 1994, Carl Hanser Verlag, Munich
Articles in the same Issue
- Contents
- Contents
- Editorial
- Tenth in a Series: Fried. Krupp: Pioneer Integrated Steel and Processing Machinery Manufacturer. Part 1. Essen, Magdeburg and Harburg (1812–1960)
- Internal Mixers
- Finite Element Modelling of Non-isothermal Viscometric Flows in Rubber Mixing
- Screw Extrusion and Mixing
- The Optimisation of Masterbatch Formulations for Use in Single Screw Machines
- Morphological Changes of a Polymer Blend into a Twin-Screw Extruder
- An In-line Melt Rheometer for Molten Plastics
- Selecting Continuous Compounding Equipment Based on Process Considerations
- Reactive Processing
- Peroxide Induced and Thermal Degradation of Polypropylene
- Reactive Blending of Polyamide 6 and Polycarbonate
- Modification of Polypropylene by Maleic Anhydride
- Fibers and Films
- Melt Strength Behaviour of Polypropylenes
- Molding
- Multilayer Injection Moulding
- Miscibility and Mechanical Properties of Poly(ether imide)/Liquid Crystalline Poly(ester imide) Blends
- The Effects of Recycling and Degradation on Parison Extrusion
- Modeling and Simulation of High Reynolds' Number Flows During Reaction Injection Mold Filling
Articles in the same Issue
- Contents
- Contents
- Editorial
- Tenth in a Series: Fried. Krupp: Pioneer Integrated Steel and Processing Machinery Manufacturer. Part 1. Essen, Magdeburg and Harburg (1812–1960)
- Internal Mixers
- Finite Element Modelling of Non-isothermal Viscometric Flows in Rubber Mixing
- Screw Extrusion and Mixing
- The Optimisation of Masterbatch Formulations for Use in Single Screw Machines
- Morphological Changes of a Polymer Blend into a Twin-Screw Extruder
- An In-line Melt Rheometer for Molten Plastics
- Selecting Continuous Compounding Equipment Based on Process Considerations
- Reactive Processing
- Peroxide Induced and Thermal Degradation of Polypropylene
- Reactive Blending of Polyamide 6 and Polycarbonate
- Modification of Polypropylene by Maleic Anhydride
- Fibers and Films
- Melt Strength Behaviour of Polypropylenes
- Molding
- Multilayer Injection Moulding
- Miscibility and Mechanical Properties of Poly(ether imide)/Liquid Crystalline Poly(ester imide) Blends
- The Effects of Recycling and Degradation on Parison Extrusion
- Modeling and Simulation of High Reynolds' Number Flows During Reaction Injection Mold Filling
