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Keynote Lecture

Sensor Systems for Additive Manufacturing

Wednesday (26.09.2018)
14:30 - 15:00 S1/03 - 123
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Modern additive manufacturing (AM) systems are based on a layer to layer application of different materials by selective melting. In particular additive manufacturing of metallic and ceramic devices – contrary to plastic materials – require elevated temperatures. Therefore, such processes pose different high challenges. One remarkable challenge is the exact control of the induced power for melting the materials, to ensure on the one side a definite melting, but preventing simultaneously an evaporation of these materials, which might lead to undesirable gas inclusion in the fabricated device. Besides it must be ensured that the layer-to-layer process leads to a fabricated device, which in the ideal case, pose the same properties as devices fabricated from the bulk material by other means. Nowadays, the fabricated devices are only investigated by invasive methods, i.e. are destroyed for investigation their properties. Although nearly all commercially available AM systems already include optical sensors, the available sensor information is not sufficient to neither ensure a stabile process control nor allow an in-situ material property investigation with sufficient accuracy and traceability.


Within the federal ministry of education and research funded FHInvest project ExdyMa the University of Applied Science Wurzburg - Schweinfurt and the Bavarian Center for Applied Energy Research are developing together with the companies Netzsch, Techno Team and KE Technologie innovative sensor systems to investigate high-temperature processes.


In the present paper the particular demand of AM systems on temperature and material property measurements are described and dedicated solution to such challenges are presented. First attempts to include these ideas in AM systems are also discussed.



Acknowledgement: This work is supported by the federal ministry of education and research, grant agreement number 13FH007IN6 and by the federal ministry of economic affairs and energy, grant agreement number 03ET7082.

 

Speaker:
Prof. Dr. Jürgen Hartmann
University of Applied Sciences Würzburg-Schweinfurt
Additional Authors:
  • Kevin Knopp
    University of Applied Sciences Würzburg-Schweinfurt
  • Philipp Lenski
    University of Applied Sciences Würzburg-Schweinfurt
  • Marc Zänglein
    University of Applied Sciences Würzburg-Schweinfurt
  • Dr. Jochen Manara
    Bavarian Center for Applied Energy Research
  • Thomas Stark
    Bavarian Center for Applied Energy Research
  • Matthias Zipf
    Bavarian Center for Applied Energy Research
  • Mariacarla Arduini
    Bavarian Center for Applied Energy Research
  • Ekkehard Schreiber
    KE Technologie
  • Dr. Udo Krüger
    Techno Team Bildverarbeitung GmbH
  • Prof. Dr. Franz Schmidt
    Techno Team Bildverarbeitung GmbH
  • Dr. Martin Brunner
    Netzsch Gerätebau GmbH

Dateien

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