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- Dokumenttyp:
- Zeitschriftenaufsatz
- Autor(en):
- Rauh, Simon; Prabhu, Shashank Deepak; Wolf, Gerhard; Fischer, Lioba; Hempel, Nico; Mayr, Peter
- Titel:
- Laser Powder Bed Fusion of Copper–Tungsten Powders Manufactured by Milling or Co-Injection Atomization Process
- Abstract:
- The processing of pure copper (Cu) has been a challenge for laser-based additive manufac- turing for many years since copper powders have a high reflectivity of up to 83% of electromagnetic radiation at a wavelength of 1070 nm. In this study, Cu particles were coated with sub-micrometer tungsten (W) particles to increase the laser beam absorptivity. The coated powders were processed by powder bed fusion-laser beam for metals (PBF-LB/M) with a conventional laser system of <300 watts laser power and a wavelength of 1070 nm. Two different powder manufacturing routes were developed. The first manufacturing route was gas atomization combined with a milling process by a planetary mill. The second manufacturing method was gas atomization with particle co-injection,where a separate W particle jet was sprayed into the atomized Cu jet. As part of the investigations, an extensive characterization of powder and additively manufactured test specimens was carried out. The specimens of Cu/W powders manufactured by the milling process have shown superior results. The laser absorptivity of the Cu/W powder was increased from 22.5% (pure Cu powder) to up to 71.6% for powders with 3 vol% W. In addition, a relative density of test specimens up to 98.2% (optically) and 95.6% (Archimedes) was reached. Furthermore, thermal conductivity was measured by laser flash analysis (LFA) and thermo-optical measurement (TOM). By using eddy current measurement, the electrical conductivity was analyzed. In comparison to the Cu reference, a thermal conductivity of 88.9% and an electrical conductivity of 85.8% were determined. Moreover, the Vickers hardness was measured. The effect of porosity on conductivity properties and hardness was investigated and showed a linear correlation. Finally, a demonstrator was built in which a wall thickness of down to 200 μm was achieved. This demonstrates that the Cu/W composite can be used for heat exchangers, heat sinks, and coils
- Stichworte:
- laser powder bed fusion; atomization; copper–tungsten; composites; reflectivity; absorptivity; porosity; relative density; thermal conductivity; electrical conductivity
- Zeitschriftentitel:
- Materials
- Jahr:
- 2024
- Band / Volume:
- 17
- Jahr / Monat:
- 2024-09
- Heft / Issue:
- 17
- Seitenangaben Beitrag:
- 4394
- Nachgewiesen in:
- Scopus
- Reviewed:
- ja
- Sprache:
- en
- Volltext / DOI:
- doi:10.3390/ma17174394
- WWW:
- https://doi.org/10.3390/ma17174394
- Verlag / Institution:
- MDPI AG
- E-ISSN:
- 1996-1944
- Eingereicht (bei Zeitschrift):
- 08.07.2024
- Angenommen (von Zeitschrift):
- 04.09.2024
- Publikationsdatum:
- 06.09.2024
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