In-Service Oxidation and Microstructural Evolution of a Nickel Superalloy in a Formula 1 Car Exhaust

Pedrazzini, S.; Kiseeva, Ekaterina S.; Escoube, Raphaëlle; Gardner, Hazel; Douglas, James O.; Radecka, Anna; Hughes, Gordon; Chapman, George B.; Edmondson, Philip D.; Stone, H.J.; Lille, D. De; Bagot, P.A.J.

doi:10.1007/s11085-017-9792-7

Cited by 11 publications

(5 citation statements)

References 40 publications

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“…Ti-rich nitrides were found to form at or near the γ R /γ interface and within the γ precipitate, with a composition given in Table 3. Their stoichiometry does not yet exactly correspond to TiN nitrides often observed in nickel-based superalloys [36], which could be due to the thermal exposure too short to complete the formation of TiN. Similar nitrides were observed in other nickel-based superalloys during oxidation of MC carbides [37].…”

Section: The Composition Of the Dataset Shown Inmentioning

confidence: 72%

Microstructural degradation of polycrystalline superalloys from oxidized carbides and implications on crack initiation

et al. 2018

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Section: The Composition Of the Dataset Shown Inmentioning

confidence: 72%

Microstructural degradation of polycrystalline superalloys from oxidized carbides and implications on crack initiation

et al. 2018

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“…4. Niobium and titanium, elements which have been shown to segregate at oxide interfaces, [24] are being depleted from the matrix to form c¢¢ precipitates at markedly shorter aging times than previously reported. This could cause unexpected changes to the corrosion resistance of the alloy when operating in a corrosive exhaust environment.…”

Section: Discussionmentioning

confidence: 75%

Atom Probe Tomography Investigations of Microstructural Evolution in an Aged Nickel Superalloy for Exhaust Applications

Gardner

Pedrazzini

Douglas

et al. 2019

Metall Mater Trans A

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The formation and evolution of nanoscale c¢¢ (Ni 3 (Nb, Ti, Al)) precipitates formed during thermal aging in the nickel superalloy Inconel 625 has been characterized using Atom Probe Tomography. The onset of c¢¢ precipitation has been found to occur after only one hour, markedly shorter than the aging time reported in the current literature. Evolution of precipitate composition and morphology during aging has been analyzed, and the potential onset of the c¢¢ fi d (Ni 3 (Nb, Mo, Cr, Fe, Ti)) transformation after long aging times is discussed.

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“…Alloys applied in nuclear reactors 1,2 , gas turbines 3,4 , heterogeneous catalysis 5,6 , automotive internal combustion engines 7 , and electronic devices 8,9 are routinely exposed to high-temperature, corrosive, and oxidising environments. Oxidation of alloys in service can degrade material properties and performance, raising significant safety and economic concerns.…”

Section: Introductionmentioning

confidence: 99%

Rapid assessment of structural and compositional changes during early stages of zirconium alloy oxidation

et al. 2020

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A multimodal chemical imaging approach has been developed and applied to detail the dynamic, atomic-scale changes associated with oxidation of a zirconium alloy (Zircaloy-4). Scanning transmission electron microscopy, a gas-phase reactor chamber attached to an atom probe tomography instrument, and synchrotron-based X-ray absorption near-edge spectroscopy were employed to reveal morphology, composition, crystal, and electronic structure changes that occur during initial stages of oxidation at 300 °C. Oxidation was carried out in 10 mbar O2 gas for short exposure times of 1 and 5 min. A multilayered oxide film with a cubic ZrO adjacent to the oxide/metal interface, a nanoscopic transition region with a graded composition of ZrO2−x (where 0 < x < 1), and tetragonal ZrO2 in the outermost oxide were formed. Partitioning of the major alloying element (tin) to the oxide/metal interface and heterogeneously within the oxide accompanied the development of the layered oxide. Our work provides a rapid, high-throughput approach for detailed characterisation of initial stages of zirconium alloy oxidation at an accelerated time scale, with implications for several other alloy systems.

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In-Service Oxidation and Microstructural Evolution of a Nickel Superalloy in a Formula 1 Car Exhaust

Cited by 11 publications

References 40 publications

Microstructural degradation of polycrystalline superalloys from oxidized carbides and implications on crack initiation

Microstructural degradation of polycrystalline superalloys from oxidized carbides and implications on crack initiation

Atom Probe Tomography Investigations of Microstructural Evolution in an Aged Nickel Superalloy for Exhaust Applications

Rapid assessment of structural and compositional changes during early stages of zirconium alloy oxidation

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