Lifetime extension prediction of the rejuvenated first stage gas turbine blades

ABSTRACT

This paper presents a novel method for the first stage gas turbine blades lifetime extension based on degraded GTD-111 substrates hardness evolution after the rejuvenation heat treatments (RHTs) process. Moreover, the RHT impact on directionally solidified (DS) GTD-111 nickel-based suparalloys homogenisation and blades hardness properties were revealed and discussed. The measured hardness values indicate that turbine blades hardness progress is closely related to the nucleation of topologically close packed (TCP) phases, irregular γ’ (Ni₃, Al) precipitates growth, and Cr-rich M₂₃C₆ Coarsening at grain boundaries. Aspects like γ′/γ eutectic regions rafting, cooling holes oxidation attacks, and formation of cavities within γ-matrix were also identified and analysed.

KEYWORDS:

• DS GTD-111
• lifetime extension
• hardness
• rejuvenation heat treatment
• σ-phase
• η (Ni₃
• Ti) platelets
• γ' (Ni₃, Al) precipitates
• γ'/γ eutectic regions

Acknowledgements

The authors are grateful to Dr Med. A. Djeridane for his valuable contribution.

Disclosure statement

No potential conflict of interest was reported by the authors.

ORCID

Khier Sabri http://orcid.org/0000-0001-6864-0061