|About this Abstract
||Materials Science & Technology 2019
||Additive Manufacturing of Metals: Post Processing
||Laser Beam Powder Bed Fusion and Post Processing of Alloy 247LC
||Olutayo Adegoke, Joel Andersson, Olarenwaju Ojo, Håkan Brodin, Robert Pederson
|On-Site Speaker (Planned)
Alloy 247LC is sensitive to cracking during laser beam powder bed fusion (PBF-LB) manufacturing. Post processing is thus required to close cracks and achieve desired properties. In this study, samples of Alloy 247LC were manufactured by PBF-LB and subsequently post processed by hot isostatic pressing (HIP), HIP + solution and ageing heat treatments. The microstructure was characterized. Results showed cracks in the as-built condition. Cracks were not detected after HIP. Bright microconstituents were observed in the region between the cells, mainly, because of the partitioning of Hf and Ta into the intercellular region, where they presumably form carbides. What is assumed to be oxides were prominent in the microstructure. Thermodynamic calculations showed rapid formation of γ’ precipitates in the alloy, due to the high total concentration of Al and Ta and this was linked to the high hardness values in the as-built condition.
||Planned: At-meeting proceedings