Abstract

With the increasing use of the filament fabrication process, the in-house production of filament and the recycling of PLA waste is becoming more and more important. Small desktop filament extruders with associated peripherals enable small businesses and private users to carry out these recycling processes. Determing the right process parameters is of crucial importance here. These are usually only issued by the polymer manufacturer and the machine manufacturer. However, the development of own process parameters is important for new polymer compounds, as well as polymers with unknown manufacturers, as is typical in recycling. The common Taguchi method, which is used for process optimisation within the FFF process, was also used in this article to produce improved parameter sets for the production of filament using a single screw extruder (3devo Precision) with four heating zones. In this experimental field, the Taguchi method did not prove promising. Due to the small dimensions and compact design of such desktop filament extrusion machines, it was found that the setting parameters cannot be considered independently. The main parameters influencing the process were identified as the extruder screw speed, the cooling capacity and the temperature of the heating coil at the hopper. Nevertheless, parameter sets for PLA pellets and recycled PLA could be developed which have a better performance in terms of homogeneity of the diameter over time compared to the previously available parameter sets.

Highlights

  • The amount of plastic and plastic waste produced has increased dramatically worldwide since its invention in the early twentieth century [1]

  • As any process of material conversion, the overall process of recycling thermoplastic material into filaments which are suitable for fused filament fabrication (FFF) 3D printing, is subdivided into multiple steps

  • For the production of filament from poly lactic acid (PLA) pellets, a better set of parameters than the basic parameters specified by the manufacturer could be worked out by means of the analysis carried out

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Summary

Introduction

The amount of plastic and plastic waste produced has increased dramatically worldwide since its invention in the early twentieth century [1]. In 2019, 368 million tons of plastic were produced worldwide [2]. Despite the large production volumes, recycling of plastics is still limited. In Germany, 60% of our waste is currently thermally recycled, i.e. incinerated. 17% of plastic waste is recycled, of which only a small proportion has the quality of new plastic [3]

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