Direction dependency in coaxial laser double wire Direct Energy Deposition

Research output: Contribution to journalConference articleResearchpeer review

Authors

  • Nick Schwarz
  • Marius Lammers
  • Jörg Hermsdorf
  • Stefan Kaierle
  • Henning Ahlers
  • Roland Lachmayer

Research Organisations

External Research Organisations

  • Laser Zentrum Hannover e.V. (LZH)
  • University of Applied Sciences and Arts Hannover (HsH)
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Details

Original languageEnglish
Pages (from-to)196-200
Number of pages5
JournalProcedia CIRP
Volume111
Early online date6 Sept 2022
Publication statusPublished - 2022
Event12th CIRP Conference on Photonic Technologies, LANE 2022 - Erlangen, Germany
Duration: 4 Sept 20228 Sept 2022

Abstract

Coaxial Laser wire Direct Energy Deposition (L-DED) promises a direction-independent buildup due to a centric supply of the welding material. To fabricate Functionally Graded Materials (FGMs), a processing head was designed that is capable of supplying two wire materials into the processing zone. This study investigates the direction dependency of welding seams produced by two 1.4718 metal wires with a diameter of 0.8 mm in a coaxial laser setup using three separately controllable single laser beams with a maximum combined laser power of 660 W. The welding wires are supplied simultaneously to the laser spot under an incidence angle of 3.5° to the middle axis of the processing head. The seam geometry is investigated using a confocal laserscanning-microscope. A comparison of the height, width and macroscopic seam geometry reveals the influence of the welding direction on the seam geometry and quality in Laser Double wire Direct Energy Deposition (LD-DED).

Keywords

    Additive Manufacturing, DiCoLas, Functionally Graded Materials, Laser Double Wire DED

ASJC Scopus subject areas

Cite this

Direction dependency in coaxial laser double wire Direct Energy Deposition. / Schwarz, Nick; Lammers, Marius; Hermsdorf, Jörg et al.
In: Procedia CIRP, Vol. 111, 2022, p. 196-200.

Research output: Contribution to journalConference articleResearchpeer review

Schwarz, N, Lammers, M, Hermsdorf, J, Kaierle, S, Ahlers, H & Lachmayer, R 2022, 'Direction dependency in coaxial laser double wire Direct Energy Deposition', Procedia CIRP, vol. 111, pp. 196-200. https://doi.org/10.1016/j.procir.2022.08.045
Schwarz, N., Lammers, M., Hermsdorf, J., Kaierle, S., Ahlers, H., & Lachmayer, R. (2022). Direction dependency in coaxial laser double wire Direct Energy Deposition. Procedia CIRP, 111, 196-200. https://doi.org/10.1016/j.procir.2022.08.045
Schwarz N, Lammers M, Hermsdorf J, Kaierle S, Ahlers H, Lachmayer R. Direction dependency in coaxial laser double wire Direct Energy Deposition. Procedia CIRP. 2022;111:196-200. Epub 2022 Sept 6. doi: 10.1016/j.procir.2022.08.045
Schwarz, Nick ; Lammers, Marius ; Hermsdorf, Jörg et al. / Direction dependency in coaxial laser double wire Direct Energy Deposition. In: Procedia CIRP. 2022 ; Vol. 111. pp. 196-200.
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title = "Direction dependency in coaxial laser double wire Direct Energy Deposition",
abstract = "Coaxial Laser wire Direct Energy Deposition (L-DED) promises a direction-independent buildup due to a centric supply of the welding material. To fabricate Functionally Graded Materials (FGMs), a processing head was designed that is capable of supplying two wire materials into the processing zone. This study investigates the direction dependency of welding seams produced by two 1.4718 metal wires with a diameter of 0.8 mm in a coaxial laser setup using three separately controllable single laser beams with a maximum combined laser power of 660 W. The welding wires are supplied simultaneously to the laser spot under an incidence angle of 3.5° to the middle axis of the processing head. The seam geometry is investigated using a confocal laserscanning-microscope. A comparison of the height, width and macroscopic seam geometry reveals the influence of the welding direction on the seam geometry and quality in Laser Double wire Direct Energy Deposition (LD-DED).",
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AU - Lammers, Marius

AU - Hermsdorf, Jörg

AU - Kaierle, Stefan

AU - Ahlers, Henning

AU - Lachmayer, Roland

N1 - Funding Information: Funded by the Ministry for Science and Culture of Lower Saxony (MWK) - School for Additive Manufacturing SAM.

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N2 - Coaxial Laser wire Direct Energy Deposition (L-DED) promises a direction-independent buildup due to a centric supply of the welding material. To fabricate Functionally Graded Materials (FGMs), a processing head was designed that is capable of supplying two wire materials into the processing zone. This study investigates the direction dependency of welding seams produced by two 1.4718 metal wires with a diameter of 0.8 mm in a coaxial laser setup using three separately controllable single laser beams with a maximum combined laser power of 660 W. The welding wires are supplied simultaneously to the laser spot under an incidence angle of 3.5° to the middle axis of the processing head. The seam geometry is investigated using a confocal laserscanning-microscope. A comparison of the height, width and macroscopic seam geometry reveals the influence of the welding direction on the seam geometry and quality in Laser Double wire Direct Energy Deposition (LD-DED).

AB - Coaxial Laser wire Direct Energy Deposition (L-DED) promises a direction-independent buildup due to a centric supply of the welding material. To fabricate Functionally Graded Materials (FGMs), a processing head was designed that is capable of supplying two wire materials into the processing zone. This study investigates the direction dependency of welding seams produced by two 1.4718 metal wires with a diameter of 0.8 mm in a coaxial laser setup using three separately controllable single laser beams with a maximum combined laser power of 660 W. The welding wires are supplied simultaneously to the laser spot under an incidence angle of 3.5° to the middle axis of the processing head. The seam geometry is investigated using a confocal laserscanning-microscope. A comparison of the height, width and macroscopic seam geometry reveals the influence of the welding direction on the seam geometry and quality in Laser Double wire Direct Energy Deposition (LD-DED).

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