Fatigue Damage Evolution in SS316L Produced by Powder Bed Fusion in Diferent Orientations with Reused Powder Feedstock

Journal article

Wood, P., Kopec, M., Gunputh, U., Williams, G., Macek, W. and Kowalewski, Z.L. 2024. Fatigue Damage Evolution in SS316L Produced by Powder Bed Fusion in Diferent Orientations with Reused Powder Feedstock. Experimental Mechanics. https://doi.org/10.1007/s11340-024-01118-1
AuthorsWood, P., Kopec, M., Gunputh, U., Williams, G., Macek, W. and Kowalewski, Z.L.
Abstract

Background Metal Laser Powder Bed Fusion Melting (LPBF-M) is considered economically viable and environmentally
sustainable because of the possibility of reusing the residual powder feedstock leftover in the build chamber after a partbuild is completed. There is however limited information on the fatigue damage development of LPBF-M samples made from reused feedstock.
Objective In this paper, the stainless steel 316 L (SS316L) powder feedstock was examined and characterised after 25
reuses, following which the fatigue damage development of material samples made from the reused powder was assessed.
Methods The suitability of the powder to LPBF-M technology was evaluated by microstructural observations and measurements of Hall fow, apparent and tapped density as well as Carr’s Index and Hausner ratio. LPBF-M bar samples in three build orientations (Z – vertical, XY – horizontal, ZX – 45° from the build plate) were built for fatigue testing. They were then subjected to fatigue testing under load control using full tension and compression cyclic loading and stress asymmetry coefcient equal to -1 in the range of stress amplitude from ±300 MPa to ±500 MPa.
Results Samples made from reused powder (25 times) in the LPBF-M process exhibited similar fatigue performance to fresh
unused powder although a lower ductility for vertical samples was observed during tensile testing. Printing in horizontal
(XY) and diagonal (ZX) directions, with reused powder, improved the service life of the SS316L alloy in comparison to the vertical (Z).
Conclusions Over the 25 reuses of the powder feedstock there was no measurable diference in the fowability between the
fresh (Hall Flow: 21.4 s/50 g) and reused powder (Hall Flow: 20.6 s/50 g). This confrms a uniform and stable powder feeding process during LPBF-M for both fresh and reused powder. The analysis of fatigue damage parameter, D, concluded cyclic plasticity and ratcheting to be the main mechanism of damage.

KeywordsSS316L; Stainless steel ; Fatigue; Additive manufacturing; Laser Powder Bed Fusion Melting (LPBF-M)
Year2024
JournalExperimental Mechanics
PublisherSpringer
Digital Object Identifier (DOI)https://doi.org/10.1007/s11340-024-01118-1
Web address (URL)https://link.springer.com/article/10.1007/s11340-024-01118-1
Publication dates
Online26 Sep 2024
Publication process dates
Accepted17 Sep 2024
Deposited10 Oct 2024
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