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Strain localization in the Alloy 718 Ni-based superalloy: From room temperature to 650 °C

Damien Texier, Julien Milanese, Malo Jullien, Julien Genée, Jean‐Charles Passieux, Didier Bardel, Éric Andrieu, M. Legros, Jean‐Charles Stinville

2024Acta Materialia86 citationsDOIOpen Access PDF

Abstract

Irreversible deformation in relation to the microstructure was investigated for a polycrystalline Ni-based superalloy (Alloy 718) from room temperature to 650 °C using high-resolution digital image correlation (HR-DIC) techniques. Interrupted tensile tests were performed under a protective atmosphere to ensure the stability of the speckle pattern to track kinematics fields from surface analyses. In-plane strain localization was captured using HR-DIC on scanning electron microscopy (SEM) images. A statistical analysis of different strain localization events in relation to the microstructural features was conducted, i.e., intragranular slip localization, slip localization parallel to and near Σ3-twin boundaries (Σ3-TB), and grain boundary sliding (GBS). Alloy 718 exhibited slip localization at room temperature and 350 °C. Intense strain localization develops parallel and in the vicinity of Σ3-TB from the onset of the microplasticity. Few intense slip stimulated-grain boundary sliding events were found due to slip localization on both grains adjacent to the grain boundary. At 650 °C, Alloy 718 experienced grain boundary sliding at the onset of the yield without particular slip localization in adjacent grains. At lower temperatures, strain localization parallel to and near Σ3-TB was intense, and intragranular slip localization intensified with increasing macroscopic deformation. Particular microstructural configurations were found at 650 °C leading to premature damage: (i) sub-surface cavitation at grain boundaries, and (ii) grain boundary cracking due to intense shearing near a Σ3-TB.

Topics & Concepts

Materials scienceGrain boundarySuperalloySlip (aerodynamics)Grain Boundary SlidingLüders bandShearing (physics)MetallurgyMicrostructureAlloyDigital image correlationComposite materialThermodynamicsPhysicsHigh Temperature Alloys and CreepMetallurgy and Material FormingMicrostructure and mechanical properties
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