Effect of strain level on the evolution of microstructure in a recently developed AD730 nickel based superalloy during hot forging

Konkova, T. and Rahimi, S. and Mironov, S. and Baker, T.N. (2018) Effect of strain level on the evolution of microstructure in a recently developed AD730 nickel based superalloy during hot forging. Materials Characterization, 139. pp. 437-445. ISSN 1044-5803 (https://doi.org/10.1016/j.matchar.2018.03.027)

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Abstract

Design and control of microstructure of engineering parts made from nickel based superalloys with superior mechanical properties for high temperature applications, require the parts to be subjected to certain thermo-mechanical processing during forging. This often includes sequential straining and annealing at elevated temperatures followed by subsequent aging heat treatments at lower temperatures. In this study, the effect of strain magnitude on the evolution of microstructure during hot forging of a recently developed AD730 nickel based superalloy has been investigated. Microstructural heterogeneity was observed in a forged material manifested in a form of large non-recrystallized grains within the recrystallized matrix that is observed to be dependent on the level of deformation (i.e. strain magnitude). Analyses of microstructure indicated significant reduction in the fraction of low-angle grain boundaries and sub-structures with an increase in the applied strain, suggesting higher fraction of recrystallization with higher levels of strains. It was concluded that the lower strain levels were insufficient to provide enough driving force for complete recrystallization throughout the entire microstructure of the forged material.

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