Surface quality of profile extrusion dies manufactured by Selective Laser Melting

Autor/innen

  • Christian Hopmann Institute of Plastics Processing
  • Nafi Yesildag Institute of Plastics Processing
  • Sebastian Bremen Fraunhofer Institute for Laser Technology ILT
  • Konrad Wissenbach Fraunhofer Institute for Laser Technology ILT
  • Simon Merkt Fraunhofer Institute for Laser Technology ILT

Abstract

The design of plastics profile extrusion dies becomes increasingly more complex so that conventional manufacture processes reach their limit in the die manufacture. A feasible manufacture of arbitrarily designed dies is only possible by additive manufacturing. An especially promising process is hereby the Selective Laser Melting with which metal parts with series identical mechanical properties can be produced without the need for part specific tooling or downstream sintering processes. Disadvantegeous is, however, the relatively rough surface of additively manufactured parts. Against this background, the manufacturing of an profile extrusion die by Selective Laser Melting and the plastics profile surface quality, that can be achieved with such dies, is investigated. For this purpose, profiles are extruded both with an additively manufactured die and a conventionally milled sample of the same die geometry. In case of the additively manufactured die a concept for the surface finishing of the flow channel is required, which can be applied to arbitrarily shaped geometries. Therefore, two different reworking processes are applied only to the die land of the flow channel. The comparison of the surface roughnesses shows that the additively manufactured die with a polished die land delivers the same surface quality as the conventional die.

Veröffentlicht

07.12.2015

Zitationsvorschlag

Hopmann, C., Yesildag, N., Bremen, S., Wissenbach, K., & Merkt, S. (2015). Surface quality of profile extrusion dies manufactured by Selective Laser Melting. RTe Journal, 12(1). Abgerufen von https://rtejournal.de/rte/article/view/2015_11

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