Development of Oxide-Dispersion-Strengthened Nickel-Based Super Alloy Powders for Additive Manufacturing

Abstract: Oxide-Dispersion-Strengthened (ODS) Nickel-Based superalloy has been drawn a huge attention and developed with good oxidation resistance, corrosion resistance and high creep strength. It has been considered as critical materials for Additive Manufacturing (AM). The quality and the efficiency of fabrication methods of ODS limits the performance of itself on AM. The development of new type of ODS, new methodologies and evaluation techniques are required if the enhanced quality of ODS and enhanced efficiency of f… Show more

“…On the other hand, the columnar structure in Figure 5-15 (c) is still evident as the building direction moved forward. Thus, the input energy of 250W-7.55J/mm sample was not sufficient and decreased with advancement of the building direction comparing the 275W-8.33J/mm sample [44]. Unlike the ambiguous epitaxial characteristics shown in Figure 5-16 (b), the columnar dendrites generally displayed the epitaxial growth with a higher degree of clustering on increasing laser power.…”

“…Generally, the major input energy and heat induced by laser radiation were transmitted through the substrate of previous as-printed layers, which in turn facilitated the formation of typical columnar dendrite structures along the building direction [43,45,46]. Also, residual thermal stress as a result of the repeated rapid melting and solidification at a higher laser power was remained in the workpiece [47] which results in the generation of thermal cracks in both dendrite and inter-dendritic regions that were observed in the SEM micrographs [44].…”

“…Because the powders were processed by MCB+BM process, the PCA, stearic acid, with the composition of CH3 (CH2)16CO2H to boost the MA effect during the BM process. Some of the carbon remained after the BM process and reacted with major elements Ni, Cr, and Al to form carbides during the printing process [44].…”

Development of Ni-based Oxide Dispersion Strengthened (ODS) powder particles for Metal Additive Manufacturing (AM) Applications

“…On the other hand, the columnar structure in Figure 5-15 (c) is still evident as the building direction moved forward. Thus, the input energy of 250W-7.55J/mm sample was not sufficient and decreased with advancement of the building direction comparing the 275W-8.33J/mm sample [44]. Unlike the ambiguous epitaxial characteristics shown in Figure 5-16 (b), the columnar dendrites generally displayed the epitaxial growth with a higher degree of clustering on increasing laser power.…”

“…Generally, the major input energy and heat induced by laser radiation were transmitted through the substrate of previous as-printed layers, which in turn facilitated the formation of typical columnar dendrite structures along the building direction [43,45,46]. Also, residual thermal stress as a result of the repeated rapid melting and solidification at a higher laser power was remained in the workpiece [47] which results in the generation of thermal cracks in both dendrite and inter-dendritic regions that were observed in the SEM micrographs [44].…”

“…Because the powders were processed by MCB+BM process, the PCA, stearic acid, with the composition of CH3 (CH2)16CO2H to boost the MA effect during the BM process. Some of the carbon remained after the BM process and reacted with major elements Ni, Cr, and Al to form carbides during the printing process [44].…”

Development of Ni-based Oxide Dispersion Strengthened (ODS) powder particles for Metal Additive Manufacturing (AM) Applications