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

Date published

2023-03-10

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Taylor and Francis

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Article

ISSN

0960-3409

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Citation

Waeytens M, Syed AU, Roberts T, et al., (2023) A microscopy study of nickel-based superalloys performance in type I hot corrosion conditions. Materials at High Temperatures, Volume 40, Issue 4, 2023, pp. 272-282

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.

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Github

Keywords

type I hot corrosion, nickel alloy, chromium, corrosion resistance, scanning electron microscope, energy dispersive X-ray

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Attribution 4.0 International

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