Spheroidization and dynamic recrystallization mechanisms of a novel HIPed P/M superalloy during hot deformation

The spheroidization behavior of gamma' phase and dynamic recrystallization (DRX) mechanisms of a novel HIPed powder metallurgy (P/M) superalloy deformed at high temperatures (1080-1170 degrees C) and different strain rates (1-0.001 s(-1)) are investigated. The results show that the spheroidization behavior of gamma' phase and DRX mechanisms are greatly influenced by deformation condition. The coarse gamma(I)' phase promotes the DRX process, while the fine spherical gamma(III)' phase results in the formation of sub-grain boundaries. Thus, the grains are refined. During hot deformation, some coarse gamma(I)' and gamma(II)' phases transform into the fine spherical gamma(III)' phases, while some initial gamma(III)' phases gradually diminish. Besides, the spheroidization rates of gamma(I)', gamma(II)' and gamma(III)' phases increase with the increase of strain rate. The low DRX volume fraction and refined grains with the average size of 2.27 mu m are obtained at 1110 degrees C/1 s(-1). It is attributed to the fact that the DRX nucleation is obviously enhanced and the pinning effects of spherical gamma(III)' phases on dislocations accelerate the formation of sub-grains. In addition, the discontinuous DRX is the main DRX mechanism of this novel P/M superalloy. (C) 2022 Elsevier B.V. All rights reserved.

Automated summary

This study investigates the spheroidization behavior of the gamma' phase and the dynamic recrystallization (DRX) mechanisms of a novel HIPed powder metallurgy superalloy under different deformation conditions. The results indicate that the deformation conditions greatly influence the spheroidization behavior of the gamma' phase and DRX mechanisms.