2021
DOI: 10.1016/j.addma.2021.102288
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Selective compositional range exclusion via directed energy deposition to produce a defect-free Inconel 718/SS 316L functionally graded material

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Cited by 33 publications
(18 citation statements)
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“…First, SUS304L/IN625 FGM with a size of 25 × 45 × 2 mm was deposited on the SUS304L substrate by changing the mixing ratio of 25 wt% per 2 layers using LMD. The mixing ratio was selected to exclude the composition range where defects were found in previous studies [ 28 ], and the processing time was minimized by minimizing the number of layers. In the WAAM experiment, 28 layers of Inconel 625 were deposited using the fabricated FGM as a substrate, and Figure 5 shows the LMD-WAAM sample.…”
Section: Methodsmentioning
confidence: 99%
“…First, SUS304L/IN625 FGM with a size of 25 × 45 × 2 mm was deposited on the SUS304L substrate by changing the mixing ratio of 25 wt% per 2 layers using LMD. The mixing ratio was selected to exclude the composition range where defects were found in previous studies [ 28 ], and the processing time was minimized by minimizing the number of layers. In the WAAM experiment, 28 layers of Inconel 625 were deposited using the fabricated FGM as a substrate, and Figure 5 shows the LMD-WAAM sample.…”
Section: Methodsmentioning
confidence: 99%
“…The melt is undercooled, and with the development of eutectic cells, a negative temperature field forms ahead of the solid-liquid surface [36,42]. From the microstructure analysis in Figure 5 and Video S1, there are partitioning components, especially Si, enriched in the cellular boundaries, destabilising the interface and causing high constitutional undercooling [43]. Eutectic branches develop, driven by thermal and constitutional undercooling.…”
Section: Microstructure Evolutionmentioning
confidence: 99%
“…They reported that the best combination of mechanical properties (tensile strength of 527.05 MPa and elongation of 26.21%) were obtained with a composition change step of 10%. In another study, Kim et al 14 observed that the formation of defects (pores and cracks) occurs in certain chemical composition ranges of the SS316L/IN718 structure affected by ceramic oxides and their subsequent propagation in the direction of intermetallic and carbide compounds. Moreover, thermal and residual stresses concentrated at the grain boundaries exacerbated the formation of these defects.…”
Section: Introductionmentioning
confidence: 99%