Additive Manufacturing Letters (Dec 2021)

Development and characterization of a metastable Al-Mn-Ce alloy produced by laser powder bed fusion

  • Katharina Gabrysiak,
  • Tobias Gustmann,
  • Jens Freudenberger,
  • Kai Neufeld,
  • Lars Giebeler,
  • Christoph Leyens,
  • Uta Kühn

Journal volume & issue
Vol. 1
p. 100017

Abstract

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Laser powder bed fusion (LPBF) can help to overcome two challenges occurring by casting of metastable Al alloys: (1) the high amount of casting defects and (2) the limited part size while maintaining rapid solidification of the whole cross-section. In this study, an Al92Mn6Ce2 alloy was processed crack-free without baseplate heating by LPBF. The high cooling rate during fabrication has a significant impact on the microstructure, which was characterized by SEM, TEM and XRD. The processing through LPBF causes a high amount and a strong refinement of the intermetallic Al20Mn2Ce precipitates. This leads, compared to suction-cast specimens, to a higher hardness (180 HV 5) and a higher tolerable compressive stress (>1200 MPa) associated with a pronounced plasticity without failure up to a strain of 40%. The extraordinary mechanical properties of additively manufactured Al92Mn6Ce2 can extend the possibilities of producing novel LPBF lightweight structures for potential applications under harsh conditions.

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