期刊
METALS
卷 10, 期 8, 页码 -出版社
MDPI
DOI: 10.3390/met10080996
关键词
laser powder bed fusion; nickel-based superalloy; microstructure; defects; cracks
资金
- Vinnova [2016-05175]
This paper reviews state of the art laser powder bed fusion (L-PBF) manufacturing of gamma ' nickel-based superalloys. L-PBF resembles welding; therefore, weld-cracking mechanisms, such as solidification, liquation, strain age, and ductility-dip cracking, may occur during L-PBF manufacturing. Spherical pores and lack-of-fusion voids are other defects that may occur in gamma '-strengthened nickel-based superalloys manufactured with L-PBF. There is a correlation between defect formation and the process parameters used in the L-PBF process. Prerequisites for solidification cracking include nonequilibrium solidification due to segregating elements, the presence of liquid film between cells, a wide critical temperature range, and the presence of thermal or residual stress. These prerequisites are present in L-PBF processes. The phases found in L-PBF-manufactured gamma '-strengthened superalloys closely resemble those of the equivalent cast materials, where gamma, gamma ', and gamma/gamma ' eutectic and carbides are typically present in the microstructure. Additionally, the sizes of the gamma ' particles are small in as-built L-PBF materials because of the high cooling rate. Furthermore, the creep performance of L-PBF-manufactured materials is inferior to that of cast material because of the presence of defects and the small grain size in the L-PBF materials; however, some vertically built L-PBF materials have demonstrated creep properties that are close to those of cast materials.
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