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Temperature study of deformation twinning behaviour in nickel-base Superalloy 625

Joakim Nordström, Zhihua Dong, Lisa Lautrup, Raveendra Siriki, Levente Vitos, Johan Moverare, Mattias Calmunger, Guocai Chai

2024Materials Science and Engineering A17 citationsDOIOpen Access PDF

Abstract

Deformation behaviour in the Nickel-base superalloy 625 has been studied by tensile testing at four temperatures: 295, 223, 173 and 77 K. The microstructure has been investigated using TEM, FIB-SEM, EBSD and ECCI techniques. Deformation in the alloy turns out to be a competitive course of events between at least two deformation mechanisms, namely dislocation slip and deformation twinning. Slip is the predominant deformation mechanism at higher temperatures. While at 77 K, deformation induced twinning gives an extra degree of freedom as one of the main deformation mechanisms, i.e., the material shows a twin induced plasticity, TWIP, behaviour. Ab initio calculations indicate that the influence of cryogenic/sub-zero temperatures on the stacking fault energy of this alloy can be limited and that the formation of deformation twins cannot be determined solely by the stacking fault energy. The results implies that it is the critical strain and strain hardening rate that influences the deformation twinning onset and twinning rate.

Topics & Concepts

SuperalloyCrystal twinningMaterials scienceMetallurgyNickelDeformation (meteorology)Base (topology)Composite materialMicrostructureMathematical analysisMathematicsHigh Temperature Alloys and CreepMicrostructure and Mechanical Properties of SteelsIntermetallics and Advanced Alloy Properties
Temperature study of deformation twinning behaviour in nickel-base Superalloy 625 | Litcius