Experimental Investigation and Numerical Simulation of a Self-Wiping Corotating Parallel Octa-Screw Extruder

• Published in: Polymers Vol. 14; no. 6; p. 1201
• Main Authors: Liu, Cheng-Ying, Mikoshiba, Shota, Kobayashi, Yutaka, Ishigami, Akira, Yorifuji, Daisuke, Tanifuji, Shin-Ichiro, Ito, Hiroshi
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 16.03.2022; MDPI
• Subjects: Approximation; Computer simulation; experimental investigation; Experiments; Extrusion; Finite element method; Flow velocity; Heat; High density polyethylenes; Mathematical models; Numerical analysis; numerical simulation; octa-screw extrusion; Optimization; Pelleting; Polymer matrix composites; Polymers; Pressure distribution; Residence time distribution; Resins; Simulation; Temperature profiles; Twin screw extruders; Japan; experimental investigation; octa-screw extrusion; numerical simulation
• ISSN: 2073-4360; 2073-4360
• DOI: 10.3390/polym14061201

An octa-screw extruder (OSE) is equipment for pelletizing, blending, and mixing polymers and composites. In this study, the degree of resin filling, residence time distribution (RTD) of molten resin, and temperature profile in the octa-screw extruder were evaluated both experimentally and numerically. An intermeshing corotating parallel octa-screw kneading extruder was used for the experiments. For the comparison study, the results obtained from this extruder were compared with the twin-screw extruder. High-density polyethylene was selected as the material for extrusion. Meanwhile, a numerical code, based on a 2.5 D finite element method derived from the Hele-Shaw flow model, was developed to simulate the octa-screw extrusion process. The empirical outcomes suggest that octa-screw extrusion exhibited a narrower RTD of the molten resin compared with the twin-screw extrusion, suggesting better extrudate quality. The octa-screw extrusion also showed a lower temperature profile than twin-screw extrusion. The results of the simulation were also found to be in good agreement with experimental measurements. Experimental and numerical investigations of an OSE enable detailed comprehension and visualization of resin distribution in the entire length of the OSE, thus providing advantages in terms of process optimization.