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Effect of Heat Treatment on Creep Deformation and Fracture Properties for a Coarse-Grained Inconel 718 Manufactured by Directed Energy Deposition

Ying Li, Pavel Podaný, Martina Koukolíková, Ján Džugan, Tomáš Krajňák, Jozef Veselý, Srinivasan Raghavan

2023Materials13 citationsDOIOpen Access PDF

Abstract

The creep properties of a laser-directed energy deposition (L-DED) technique manufactured Inconel 718 (IN718) was investigated at 650 °C/700 MPa. Microstructure and creep properties of L-DED IN718 samples were tailored by various post heat treatments involving homogenization heat treatment with temperature ranging from 1080 to 1180 °C + double aging and hot isostatic pressing (HIP). Microstructural changes and their influence on the creep behavior and fracture mechanism were observed and discussed. The results show that L-DED sample heat treated by a simple double aging exhibits a 49% increase in creep lifetime tr and a comparable creep elongation ɛf when compared to the wrought material, due to the reserved coarse dislocation cell substructure from the L-DED process. The loss of dislocation cell structure and the coarsening of grains at higher temperature of heat treatments contributes to a shorter tr, εf, but faster ε̇min (minimum creep rate). The present work demonstrates that a simultaneous improvement of creep strength and creep elongation can be achieved in the case of a coarse-grained L-DED IN718 by a double aging treatment which can preserve both the strengthening precipitates and an appropriate size of dislocation cells.

Topics & Concepts

CreepMaterials scienceInconelHot isostatic pressingMicrostructureElongationMetallurgyComposite materialTransgranular fractureDislocationUltimate tensile strengthAlloyGrain boundaryIntergranular fractureAdditive Manufacturing Materials and ProcessesHigh Temperature Alloys and CreepNuclear Materials and Properties
Effect of Heat Treatment on Creep Deformation and Fracture Properties for a Coarse-Grained Inconel 718 Manufactured by Directed Energy Deposition | Litcius