Comparison of microstructure and fatigue life of laser powder bed fusion and forging/rolling Inconel 718 alloy after solution heat treatment and double aging
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GLEICY DE LIMA XAVIER RIBEIRO
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Metals
Resumo
Nickel superalloy Inconel 718 (IN718) is widely employed in harsh environments with prolonged cyclic stresses in the aerospace and energy sectors, due to its corrosion/oxidation resistance and mechanical strength obtained by precipitation hardening. This work investigates the mechanical behavior in fatigue of IN718 manufactured by Additive Manufacturing (AM), specifically by Laser Powder Bed Fusion (PBF-LB), and compares its results with the material produced by forging and rolling. Samples from both processes were subjected to heat treatments of solution and double aging to increase their mechanical strength. Then, tensile, microhardness, microstructural characterization, and uniaxial fatigue tests were performed (with loading ratio R = −1). The results showed that, although the IN718 produced by AM had higher microhardness and a higher tensile strength limit than the forged and rolled material, its fatigue performance was lower. The S–N curve (stress vs. number of cycles) for the material obtained by PBF-LB demonstrated shorter fatigue life, especially under low and medium stresses. The analysis of the fracture surfaces revealed differences in the regions where the crack initiated and propagated. The shorter fatigue life of the material obtained by PBF-LB was attributed to typical process defects and microstructural differences, such as the shape of the grains, which act as points of crack nucleation.
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CUBI, RAFAEL E.; GONCALVES, RODOLFO L. P.; MASSI, MARCOS; RIBEIRO, GLEICY de L. X.; REIS, LUIS; COUTO, ANTONIO A. Comparison of microstructure and fatigue life of laser powder bed fusion and forging/rolling Inconel 718 alloy after solution heat treatment and double aging. Metals, v. 16, n. 1, p. 1-21, 2026. DOI: 10.3390/met16010057. Disponível em: https://repositorio.ipen.br/handle/123456789/49967. Acesso em: 30 Jun 2026.
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