Morphological evolution of polypropylene/polystyrene blends in a twin-screw extruder

Chemical conversion and morphological evolution of PA-6/EPM/EPM-g-MA blends along a twin screw extruder were monitored by quickly collecting small samples from the melt at specific barrel locations. The results show that the MA content of all blends decreases drastically in the first zone of the ext

Blending processes are primarily carried out in corotating intermeshing twin screw extruders. Because the knowledge about morphology development in such extruders is limited methods to obtain a desired morphology are based on empirical values and screening experiments. For the analysis of morphology

A new sampling device is used to perform near-real-time investigations of physical and chemical processes occurring inside a laboratory twin-screw extruder. Polyamide-6 -ethylene propylene rubber (PA-6 -EPM) blending and styrene-maleic anhydride (SMA) imidation experiments are reported in terms of m

A theoretical model for predicting morphology evolution of immiscible polymer blends in a corotating twin-screw extruder was described with a new blend's constitutive equation (the Lee and Park model). This theory describes the overall morphology of immiscible binary blends in terms of an interfacia