Cyclic Deformation Behavior of Additive-Manufactured IN738LC Superalloys from Virgin and Reused Powders
Journal article, 2022
In laser powder bed fusion (L-PBF), most powders are not melted in the chamber and collected after the printing process. Powder reuse is appreciable without sacrificing the mechanical properties of target components. To understand the influences of powder reuse on mechanical performance, a nickel-based superalloy, IN738LC, was investigated. Powder morphology, microstructure and chemical compositions of virgin and reused powders were characterized. An increase in oxygen content, generally metallic oxides, was located on the surface of powders. Monotonic tensile and cyclic fatigue were tested. Negligible deterioration in strength and tensile ductility were found, while scattered fatigue performance with regard to fatigue life was shown. Deformation and fatigue crack propagation mechanisms were discussed for describing the powder degradation effects.
fractography
additive manufacturing (AM)
fatigue
laser powder bed fusion (L-PBF)
IN738LC superalloy
powder reuse
Author
Jialiang Chen
Linköping University
Jinghao Xu
Linköping University
Mikael Segersäll
Linköping University
Eduard Hryha
Chalmers, Industrial and Materials Science, Materials and manufacture
Ru Lin Peng
Linköping University
JJ Moverare
Linköping University
Materials
19961944 (eISSN)
Vol. 15 24 8925Nya materiallösningar för defektfri additiv tillverkning av svårsvetsade Ni-baserade legeringar
VINNOVA (2018-00804), 2018-06-01 -- 2021-05-31.
Subject Categories
Manufacturing, Surface and Joining Technology
Other Materials Engineering
Metallurgy and Metallic Materials
DOI
10.3390/ma15248925
PubMed
36556731