Challenges of processing magnesium and magnesium alloys by selective laser melting

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • Matthias Gieseke
  • Tobias Kiesow
  • Yvonne Wessarges
  • Christian Nölke
  • Stefan Kaierle
  • Hans Jürgen Maier
  • Julia Matena
  • Andreas Kampmann
  • Hugo Murua Escobar
  • Ingo Nolte
  • Nils Claudius Gellrich
  • Heinz Haferkamp

Research Organisations

External Research Organisations

  • Laser Zentrum Hannover e.V. (LZH)
  • University of Veterinary Medicine of Hannover, Foundation
  • Hannover Medical School (MHH)
  • University of Rostock
View graph of relations

Details

Original languageEnglish
Title of host publicationWorld PM 2016 Congress and Exhibition
ISBN (electronic)9781899072484
Publication statusPublished - 2016
EventWorld Powder Metallurgy 2016 Congress and Exhibition, World PM 2016 - Hamburg, Germany
Duration: 9 Oct 201613 Oct 2016

Publication series

NameWorld PM 2016 Congress and Exhibition

Abstract

Since 2009 Selective Laser Melting (SLM®) of magnesium and magnesium alloys is in the focus of several research groups. Recent efforts proved the feasibility by manufacturing sample parts reaching a density of > 99 %. Also first mechanical properties and the resulting microstructure were determined. However, the process development can be regarded as not completed yet, since the producibility of parts is still limited. The major challenge of processing magnesium is related to the fast formation of a ductile oxide layer. The use of special magnesium alloys is promoting the processability of magnesium, since the resulting density is increased and particle adhesion minimized. This contribution describes the process effects being responsible for the processablity of magnesium and explains how magnesium alloys can improve the processablity. Also challenges for integrating magnesium in an industrial manufacturing process including safety issues are given and ways to overcome these are proposed.

ASJC Scopus subject areas

Cite this

Challenges of processing magnesium and magnesium alloys by selective laser melting. / Gieseke, Matthias; Kiesow, Tobias; Wessarges, Yvonne et al.
World PM 2016 Congress and Exhibition. 2016. (World PM 2016 Congress and Exhibition).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Gieseke, M, Kiesow, T, Wessarges, Y, Nölke, C, Kaierle, S, Maier, HJ, Matena, J, Kampmann, A, Escobar, HM, Nolte, I, Gellrich, NC & Haferkamp, H 2016, Challenges of processing magnesium and magnesium alloys by selective laser melting. in World PM 2016 Congress and Exhibition. World PM 2016 Congress and Exhibition, World Powder Metallurgy 2016 Congress and Exhibition, World PM 2016, Hamburg, Germany, 9 Oct 2016.
Gieseke, M., Kiesow, T., Wessarges, Y., Nölke, C., Kaierle, S., Maier, H. J., Matena, J., Kampmann, A., Escobar, H. M., Nolte, I., Gellrich, N. C., & Haferkamp, H. (2016). Challenges of processing magnesium and magnesium alloys by selective laser melting. In World PM 2016 Congress and Exhibition (World PM 2016 Congress and Exhibition).
Gieseke M, Kiesow T, Wessarges Y, Nölke C, Kaierle S, Maier HJ et al. Challenges of processing magnesium and magnesium alloys by selective laser melting. In World PM 2016 Congress and Exhibition. 2016. (World PM 2016 Congress and Exhibition).
Gieseke, Matthias ; Kiesow, Tobias ; Wessarges, Yvonne et al. / Challenges of processing magnesium and magnesium alloys by selective laser melting. World PM 2016 Congress and Exhibition. 2016. (World PM 2016 Congress and Exhibition).
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title = "Challenges of processing magnesium and magnesium alloys by selective laser melting",
abstract = "Since 2009 Selective Laser Melting (SLM{\textregistered}) of magnesium and magnesium alloys is in the focus of several research groups. Recent efforts proved the feasibility by manufacturing sample parts reaching a density of > 99 %. Also first mechanical properties and the resulting microstructure were determined. However, the process development can be regarded as not completed yet, since the producibility of parts is still limited. The major challenge of processing magnesium is related to the fast formation of a ductile oxide layer. The use of special magnesium alloys is promoting the processability of magnesium, since the resulting density is increased and particle adhesion minimized. This contribution describes the process effects being responsible for the processablity of magnesium and explains how magnesium alloys can improve the processablity. Also challenges for integrating magnesium in an industrial manufacturing process including safety issues are given and ways to overcome these are proposed.",
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AU - Gieseke, Matthias

AU - Kiesow, Tobias

AU - Wessarges, Yvonne

AU - Nölke, Christian

AU - Kaierle, Stefan

AU - Maier, Hans Jürgen

AU - Matena, Julia

AU - Kampmann, Andreas

AU - Escobar, Hugo Murua

AU - Nolte, Ingo

AU - Gellrich, Nils Claudius

AU - Haferkamp, Heinz

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AB - Since 2009 Selective Laser Melting (SLM®) of magnesium and magnesium alloys is in the focus of several research groups. Recent efforts proved the feasibility by manufacturing sample parts reaching a density of > 99 %. Also first mechanical properties and the resulting microstructure were determined. However, the process development can be regarded as not completed yet, since the producibility of parts is still limited. The major challenge of processing magnesium is related to the fast formation of a ductile oxide layer. The use of special magnesium alloys is promoting the processability of magnesium, since the resulting density is increased and particle adhesion minimized. This contribution describes the process effects being responsible for the processablity of magnesium and explains how magnesium alloys can improve the processablity. Also challenges for integrating magnesium in an industrial manufacturing process including safety issues are given and ways to overcome these are proposed.

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Y2 - 9 October 2016 through 13 October 2016

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