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Design and numerical analysis of tensile deformation and fracture properties of induction hardened inconel 718 superalloy for gas turbine applications

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Abstract

This study examines the design and numerical analysis of induction hardened of Inconel 718 superalloys on the tensile properties. The two tensile specimens (IHT1 & IHT2)’s outside surfaces are heated to temperatures of 850 and 1000 °C. The heated samples are then quenched in oil. The samples are evaluated utilizing a 250kN capacity servo hydraulic universal test at ambient temperature and an enhanced temperature of 800 °C. At both room temperature and a raised temperature of 800 °C, the metrics yield strength (YS), ultimate tensile strength (UTS), and elongation of induction hardened sample have risen. Induction-hardened materials have better mechanical characteristics than non-induction-hardened samples, according to numerical results from ANSYS Workbench that are corroborated with experimental data. The results of the tensile test’s cracked surfaces under a scanning electron microscope (SEM) show that the presence of shallow dimple structure at 800 °C caused transgranular cleavage and intergranular dimple rupture as the modes of failure.

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Acknowledgements

We would like to thanks the Visvesvarya Technology University (VTU) regional research center, Department of Mechanical Engineering, RV college of Engineering Bengaluru, Karnataka-india for providing facilities to conduct this research work.

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Kattimani, M.A., Venkatesh, P.R., Masum, H. et al. Design and numerical analysis of tensile deformation and fracture properties of induction hardened inconel 718 superalloy for gas turbine applications. Int J Interact Des Manuf (2023). https://doi.org/10.1007/s12008-023-01452-z

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