Materials (Oct 2023)

Characterization of the Metal Fused Filament Fabrication Process for Manufacturing of Pure Copper Inductors

  • Philipp Schüßler,
  • Jonas Franke,
  • Steffen Czink,
  • Steffen Antusch,
  • Daniel Mayer,
  • Stephan Laube,
  • Thomas Hanemann,
  • Volker Schulze,
  • Stefan Dietrich

DOI
https://doi.org/10.3390/ma16206678
Journal volume & issue
Vol. 16, no. 20
p. 6678

Abstract

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This work presents a comprehensive investigation into the optimization of critical process parameters associated with metal fused filament fabrication (Metal-FFF) for the production of copper-based components. The study focused on three different commercial and one self-manufactured filament, each with unique chemical compositions. These filaments were systematically optimized and the density was characterized for all processing steps, as well as the electrical conductivity on the specimen scale. Remarkably, two of the studied filaments exhibited exceptional properties after sintering with forming gas (up to 94% density and 55.75 MS/m electrical conductivity), approaching the properties measured for established manufacturing methods like metal injection molding. Finally, the research was extended to component-scale applications, demonstrating the successful fabrication of inductors with integrated cooling channels. These components exhibited water tightness and were used in induction hardening experiments, validating the practical utility of the optimized Metal-FFF process. In summary, the results show great promise in advancing the utilization of Metal-FFF in industrial contexts, particularly in the production of high-performance copper components.

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