Electrophotographic powder application for metal powder bed based additive manufacturing

  • The scope of this paper is the systematic investigation and conceptual design of a process based on the principle of electrophotography for the application of particles on a build plate with the focus on powder bed based fusion of metals by means of a laser beam (PBF-LB/M). The influence parameters for the particle transfer from the photoconductor to the build plate are investigated using a prototype based on the stamp principle. In this setup the process is extended for the first time by the sequence of powder deposition compared to [1, 2]. The investigations of this work concentrate exclusively on a full-area attraction on the photoconductor´s surface and its deposition. The attraction of the powder to be deposited is performed without an exposure sequence. Significant parameters for the system are identified and measures to ensure a reproducible deposition are derived. Within the scope of experimental investigations, the PBF-LB/M typical powder 1.7147 (20MnCr5) with a particle sizeThe scope of this paper is the systematic investigation and conceptual design of a process based on the principle of electrophotography for the application of particles on a build plate with the focus on powder bed based fusion of metals by means of a laser beam (PBF-LB/M). The influence parameters for the particle transfer from the photoconductor to the build plate are investigated using a prototype based on the stamp principle. In this setup the process is extended for the first time by the sequence of powder deposition compared to [1, 2]. The investigations of this work concentrate exclusively on a full-area attraction on the photoconductor´s surface and its deposition. The attraction of the powder to be deposited is performed without an exposure sequence. Significant parameters for the system are identified and measures to ensure a reproducible deposition are derived. Within the scope of experimental investigations, the PBF-LB/M typical powder 1.7147 (20MnCr5) with a particle size distribution of 15 to 56 µm is tested with regard to the deposition quality (surface coverage density and layer thickness) in a single- and multi-layer deposition. The stacking of the particle layers not only increases the area coverage density, but also demonstrates the basic transferability for generating a powder bed, which is required for additive manufacturing.show moreshow less

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Metadaten
Author:Julia Foerster, Krunoslav Vranjes, Maximilian Binder, Georg Schlick, Christian Seidel, Johannes SchilpGND
URN:urn:nbn:de:bvb:384-opus4-1159268
Frontdoor URLhttps://opus.bibliothek.uni-augsburg.de/opus4/115926
ISSN:2212-8271OPAC
Parent Title (English):Procedia CIRP
Publisher:Elsevier BV
Type:Article
Language:English
Year of first Publication:2022
Publishing Institution:Universität Augsburg
Release Date:2024/10/21
Volume:113
First Page:353
Last Page:360
DOI:https://doi.org/10.1016/j.procir.2022.09.142
Institutes:Fakultät für Angewandte Informatik
Fakultät für Angewandte Informatik / Institut für Informatik
Fakultät für Angewandte Informatik / Institut für Informatik / Lehrstuhl für Ingenieurinformatik mit Schwerpunkt Produktionsinformatik
Fakultätsübergreifende Institute und Einrichtungen / Kompetenzzentrum für Innovative Technologien - Augsburg Centre for Innovative Technologies (ACIT)
Nachhaltigkeitsziele
Nachhaltigkeitsziele / Ziel 9 - Industrie, Innovation und Infrastruktur
Dewey Decimal Classification:6 Technik, Medizin, angewandte Wissenschaften / 67 Industrielle Fertigung / 670 Industrielle Fertigung
Licence (German):CC-BY-NC-ND 4.0: Creative Commons: Namensnennung - Nicht kommerziell - Keine Bearbeitung (mit Print on Demand)