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A microscopy study of nickel-based superalloys performance in type I hot corrosion conditions

Manon Waeytens, Adnan U. Syed, Tracey Roberts, Fabian Duarte Martinez, Simon Gray, J.R. Nicholls

2023Materials at High Temperatures10 citationsDOIOpen Access PDF

Abstract

Alloy material selection for sustainable, efficient, and cost-effective use in components is a key requirement for both power generation and aerospace sectors. Superalloys are manufactured using a combination of different elements, selected carefully to balance mechanical performance and environmental resistance to be used in a variety of different service conditions. Therefore, a fundamental understanding of each element is critical to alloy design. In this paper, the interaction of alloy chemistry, particularly chromium as a corrosion-resistant element along with titanium and molybdenum, and their effect on alloys performance for the relevant gas turbine industries were discussed. Based on the findings, the single-crystal alloy is found to be a better corrosion resistant alloy exhibited higher corrosion resistance in comparison to polycrystal alloys and proved that microstructure has a significant impact on alloy performance. This study also established that molybdenum level in chromia former alloys can significantly enhance the corrosion damage.

Topics & Concepts

Materials scienceSuperalloyCorrosionMetallurgyAlloyMicrostructureMolybdenumTitanium alloyHigh-Temperature Coating BehaviorsHigh Temperature Alloys and CreepHydrogen embrittlement and corrosion behaviors in metals
A microscopy study of nickel-based superalloys performance in type I hot corrosion conditions | Litcius