Multi-Material PBF-LB/M Process

Publikation: Nicht-textuelle MedienAudiovisuelle VeröffentlichungForschungPeer-Review

Autoren

  • Ina Meyer
  • Cameron Owen Messmann
  • Marcus Oel
  • Tobias Ehlers
  • Roland Johann Lachmayer
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Details

OriginalspracheEnglisch
MediumOnline
PublikationsstatusVeröffentlicht - 2023

Abstract

Laser-based powder bed fusion of metals (PBF-LB/M) enables the production of metal parts with a high degree of design freedom. While previously being limited to single materials, novel recoating mechanisms allow material to be deposited voxel-wise, making 3D multi-material components possible. The resulting arbitrary material distribution in all three spatial directions enables shape-optimized components with locally adapted material properties, allowing technologically contradictory properties to be resolved (effect engineering).

Zitieren

Multi-Material PBF-LB/M Process. Meyer, Ina (Autor*in); Messmann, Cameron Owen (Autor*in); Oel, Marcus (Autor*in) et al.. 2023.

Publikation: Nicht-textuelle MedienAudiovisuelle VeröffentlichungForschungPeer-Review

Meyer, I, Messmann, CO, Oel, M, Ehlers, T & Lachmayer, RJ, Multi-Material PBF-LB/M Process, 2023, Audiovisuelle Veröffentlichung. https://doi.org/10.5446/62076
Meyer, I. (Autor*in), Messmann, C. O. (Autor*in), Oel, M. (Autor*in), Ehlers, T. (Autor*in), & Lachmayer, R. J. (Autor*in). (2023). Multi-Material PBF-LB/M Process. Audiovisuelle Veröffentlichung https://doi.org/10.5446/62076
Meyer I (Autor*in), Messmann CO (Autor*in), Oel M (Autor*in), Ehlers T (Autor*in), Lachmayer RJ (Autor*in). Multi-Material PBF-LB/M Process 2023. doi: 10.5446/62076
Meyer, Ina (Autor*in) ; Messmann, Cameron Owen (Autor*in) ; Oel, Marcus (Autor*in) et al.. / Multi-Material PBF-LB/M Process. [Audiovisuelle Veröffentlichung].
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title = "Multi-Material PBF-LB/M Process",
abstract = "Laser-based powder bed fusion of metals (PBF-LB/M) enables the production of metal parts with a high degree of design freedom. While previously being limited to single materials, novel recoating mechanisms allow material to be deposited voxel-wise, making 3D multi-material components possible. The resulting arbitrary material distribution in all three spatial directions enables shape-optimized components with locally adapted material properties, allowing technologically contradictory properties to be resolved (effect engineering).",
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Download

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AU - Meyer, Ina

AU - Messmann, Cameron Owen

AU - Oel, Marcus

AU - Ehlers, Tobias

AU - Lachmayer, Roland Johann

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N2 - Laser-based powder bed fusion of metals (PBF-LB/M) enables the production of metal parts with a high degree of design freedom. While previously being limited to single materials, novel recoating mechanisms allow material to be deposited voxel-wise, making 3D multi-material components possible. The resulting arbitrary material distribution in all three spatial directions enables shape-optimized components with locally adapted material properties, allowing technologically contradictory properties to be resolved (effect engineering).

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KW - Powder Bed Fusion

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KW - Effect-Engineering

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