%0 Journal Article
%A Chen, Y
%A Clark, SJ
%A Leung, CLA
%A Sinclair, L
%A Marussi, S
%A Olbinado, MP
%A Boller, E
%A Rack, A
%A Todd, I
%A Lee, PD
%D 2020
%F discovery:10099081
%J Applied Materials Today
%K Additive manufacturing, laser powder bed fusion, Keyhole mode, Synchrotron X-ray imaging
%T In-situ Synchrotron imaging of keyhole mode multi-layer laser powder bed fusion additive manufacturing
%U https://discovery-pp.ucl.ac.uk/id/eprint/10099081/
%V 20
%X The keyhole mode in laser powder bed fusion (LPBF) additive manufacturing can be associated with excessive porosity and spatter, however, the underlying physics in multilayer build conditions remain unclear. Here, we used ultra-fast synchrotron X-ray imaging to reveal this phenomena. We in investigated melt pool dynamics, keyhole porosity and spatter formation mechanisms and their impact in all layers of the build. We observed that the transient melt pool dynamics associated with the keyhole include: (I) keyhole initiation, (II) keyhole development, and (III) melt pool recovery. Porosity and spatter were associated with stages (II) and (III). We also discovered that droplet spatter can form due to the collapse of the keyhole recoil zone, causing molten particle agglomeration and ejection during stage (III). Our results clarify the transient dynamics behind the keyhole mode in a multi-layer LBPF process and can be used to guide the reduction in porosity and spatter in additive manufacturing.
%Z This version is the author accepted manuscript. For information on re-use, please refer to the publisher’s terms and conditions.