Javidrad, Hamidreza and Aydin, Huseyin and Karakaş, Burak and Alptekin, Sertaç and Kahraman, Aylin Sahin and Koç, Bahattin (2024) Process parameter optimization for laser powder directed energy deposition of Inconel 738LC. Optics and Laser Technology, 176 . ISSN 0030-3992 (Print) 1879-2545 (Online)
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Official URL: https://dx.doi.org/10.1016/j.optlastec.2024.110940
Abstract
Processing nickel-based superalloys is one of the major challenges in the additive manufacturing (AM) field. Nickel-based superalloys consist of several alloying elements, which make them prone to the formation of undesired phases and cracking due to the complex thermodynamics during the metal AM processes. In order to produce defect-free parts from nickel-based superalloys via metal AM processes, optimization of process parameters is required. In this study, the effect of laser powder directed energy deposition (LP-DED) process parameters on the geometrical properties and porosity ratio of Inconel 738 LC (low carbon) is investigated. Geometrical specifications, including the track height, width, and wetting angle are the major factors that indicate the quality of the final product. The analysis of variance (ANOVA) and response surface methodology (RSM) were developed in order to predict the geometrical specifications of single tracks from the key process parameters, namely laser power, scan speed, and powder feed rate. An optimum set of process parameters was obtained through multi-objective optimization by minimizing the porosity ratio, crack formation and maximizing the deposition rate. The results were verified and a good agreement with the experimental measurements was achieved. The produced bulk sample showed less than one percent porosity content, which indicates the effectiveness of single-track optimization prior to bulk sample production. The overall microstructure of the bulk sample showed a high content of MC carbides resulting from the abundance of alloying elements.
Item Type: | Article |
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Uncontrolled Keywords: | Additive manufacturing; Crack susceptibility; Nickel-based superalloys; Residual stress; Response surface methodology |
Divisions: | Faculty of Engineering and Natural Sciences Integrated Manufacturing Technologies Research and Application Center |
Depositing User: | Bahattin Koç |
Date Deposited: | 10 Jun 2024 12:32 |
Last Modified: | 10 Jun 2024 12:32 |
URI: | https://research.sabanciuniv.edu/id/eprint/49308 |