This document presents the information required to develop an innovative rapid production technology. The concept originates as an evolution of the European project MovAID (GA 680754), in which an additive manufacturing system for printing personalized kinetic-dynamic support devices was developed. Specifically, we focused on the miniaturization of the pellet extrusion system to enable its integration into smaller commercial 3D printers. This approach makes the project’s results accessible to individual users. In particular, this document complements the design document of the ”mini” extruder by focusing on the design of its control system.
Development of a High-Throughput Mini Pellet Extruder for 5-Axis Desktop 3D Printer with Rapid Metal 3D Printed Screw Prototyping: Mini Pellet Extruder for a 5Axis Desktop 3D Printer system - control software
Guido Chizzoli
Primo
;Fabrizio Silva;Claudia Pagano
2024
Abstract
This document presents the information required to develop an innovative rapid production technology. The concept originates as an evolution of the European project MovAID (GA 680754), in which an additive manufacturing system for printing personalized kinetic-dynamic support devices was developed. Specifically, we focused on the miniaturization of the pellet extrusion system to enable its integration into smaller commercial 3D printers. This approach makes the project’s results accessible to individual users. In particular, this document complements the design document of the ”mini” extruder by focusing on the design of its control system.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.