Contribution of the melting stage to the evolution of the morphology and chemical conversion of immiscible polyamide/polyethylene blends in twin-screw extruders

This study investigates the effects of processing conditions (the screw speed, throughput, barrel temperature, and screw configuration) on the chemical conversion and morphology evolution of polyamide/polyolefin blends along a twin-screw extruder. Polymer samples were collected rapidly at specific b...

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Bibliographic Details
Published in:Journal of applied polymer science 2009-11, Vol.114 (3), p.1768-1776
Main Authors: Yquel, V, Machado, A.V, Covas, J.A, Flat, J.J
Format: Article
Language:English
Subjects:
Applied sciences
Barrels (extruders)
blending
block copolymers
compatibilization
Conversion
Evolution
Exact sciences and technology
Extruders
Extrusion moulding
Machinery and processing
melt
Melting
Morphology
Moulding
Plastics
Polyamide resins
Polymer blends
Polymer industry, paints, wood
reactive extrusion
Screws
Technology of polymers
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Description
Summary:This study investigates the effects of processing conditions (the screw speed, throughput, barrel temperature, and screw configuration) on the chemical conversion and morphology evolution of polyamide/polyolefin blends along a twin-screw extruder. Polymer samples were collected rapidly at specific barrel locations with a special sampling device for subsequent chemical and morphological characterization. Increasing the screw speed or using more restrictive screw modules at the beginning of the melting zone promoted a faster reaction and better dispersion along the extruder. Increasing the throughput or decreasing the barrel temperature slowed the evolution of the morphology and chemical conversion along the extruder because of the lower melting rate. As soon as melting started, the chemical reaction took place. However, high chemical conversion rates required extensive melting, that is, significant interface generation.
ISSN:0021-8995
1097-4628
1097-4628
DOI:10.1002/app.30680