Precipitation behavior and grain growth of Inconel 718 deposited by induction heating-assisted laser directed energy deposition
- Authors
- Jang, Junmyoung; Shin, Yeongcheol; Lee, Juyeong; Lee, Seung Hwan
- Issue Date
- Feb-2025
- Publisher
- Elsevier BV
- Keywords
- Grain growth; Induction heating; Laser directed energy deposition; Ni superalloy; Secondary phases
- Citation
- Additive Manufacturing, v.100, pp 1 - 18
- Pages
- 18
- Indexed
- SCIE
SCOPUS
- Journal Title
- Additive Manufacturing
- Volume
- 100
- Start Page
- 1
- End Page
- 18
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206900
- DOI
- 10.1016/j.addma.2025.104678
- ISSN
- 2214-8604
2214-7810
- Abstract
- This study investigated the precipitation behavior of secondary phases and the grain formation mechanism in Inconel 718 (IN718) prepared by induction heating-assisted laser directed energy deposition (IH-A LDED) depending on the induction heating conditions applied to the deposit. In contrast with conventional LDED, which applies only laser-induced heat during deposition process, the IH-A LDED additionally uses an induction heater to maintain the deposit at a specific temperature. Thus, real-time heat treatment can be implemented during the IH-A LDED process. To compare the secondary phases and grain morphologies formed at different induction heating temperatures, a conventional LDED deposit without induction heating was fabricated, along with three IH-A LDED deposits, which were heated to the temperatures used in the homogenization, solution, and aging heat treatments of IN718. The phase and grain analyses were performed for each deposit, and tensile properties and creep stabilities of each deposit were compared. During the deposition process, two pyrometers were used to measure the temperature profiles, and these data were employed to validate numerical models of the IH-A LDED process. These numerical models were used to derive the hold temperature and hold time and to explain the precipitation behavior of the secondary phases observed in each deposit through the time–temperature–transformation diagram. In addition, solidification parameters depending on the induction heating conditions were derived, and the grain formation mechanism was elucidated.
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