Passivation of Ni-Cr and Ni-Cr-Mo Alloys in Low and High pH Sulfate Solutions

Katie Lutton; Junsoo Han; Hung M. Ha; Debashish Sur; Elena Romanovskaia; John R. Scully

doi:10.1149/1945-7111/acb9c3

Passivation of Ni-Cr and Ni-Cr-Mo Alloys in Low and High pH Sulfate Solutions

Katie Lutton
, Junsoo Han
, Hung M. Ha
, Debashish Sur
, Elena Romanovskaia
, John R. Scully

Corrosion Science & Technology

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

The kinetics of passive oxide film formation, its thickening, and composition on Ni-22Cr and Ni-22Cr-6Mo wt% alloys were investigated at selected anodic potentials. Experiments were performed in acidic and alkaline sulfate environments using a number of characterization techniques including a combination of potentiodynamic polarization, on-line atomic emission spectro-electrochemistry (AESEC), in situ potentiostatic passive film growth, along with in situ neutron reflectometry (NR) and ex situ X-ray photoelectron spectroscopy (XPS). The roles of solution pH and Mo on the passivation behavior were discussed in terms of thermodynamic and kinetic factors governing passivation. The pH was found to have an impact on the relative chemical compositions of passive film of the Ni-22Cr alloy but not noticeably for the Ni-22Cr-6Mo alloy. Ni-rich films formed early during the passivation process while Cr(III) enrichment was observed at longer times, albeit less extensively than observed previously in Cl⁻ solutions. The fraction of Cr(III) cations also increased with alloying of Mo at low and high pH demonstrating a strong effect of Mo on Cr(III) content during aqueous passivation in Ni based superalloys, however, a larger effect is seen in Cl⁻. This is a noteworthy finding as Mo is usually assumed to mainly influence pit and crevice stabilization.

Original language	English
Article number	021507
Journal	Journal of the Electrochemical Society
Volume	170
Issue number	2
DOIs	https://doi.org/10.1149/1945-7111/acb9c3
State	Published - Feb 2023

Funding

The authors acknowledge support from ONR MURI “Understanding Atomic Scale Structure in Four Dimensions to Design and Control Corrosion Resistant Alloys” on Grant # N00014-16-1-2280 under the directorship of Dr. Dave Shifler. PHI VersaProbe III system was supported by NSF Award 162601, MRI Acquisition of an X-ray Photoelectron Spectrometer for Chemical Mapping of Evolving Surfaces: A Regional Instrument for Research and Teaching. The AESEC experiments conducted by JH were supported by the Agence Nationale de Recherche, grant # ANR-20-CE08-0031 (TAPAS 2020). The authors acknowledge support from ONR MURI “Understanding Atomic Scale Structure in Four Dimensions to Design and Control Corrosion Resistant Alloys” on Grant # N00014–16–1–2280 under the directorship of Dr. Dave Shifler. PHI VersaProbe III system was supported by NSF Award 162601, MRI Acquisition of an X-ray Photoelectron Spectrometer for Chemical Mapping of Evolving Surfaces: A Regional Instrument for Research and Teaching. The AESEC experiments conducted by JH were supported by the Agence Nationale de Recherche, grant # ANR-20-CE08–0031 (TAPAS 2020).

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@article{ef173ffe9c1d4afa90b6ed305de29ca0,

title = "Passivation of Ni-Cr and Ni-Cr-Mo Alloys in Low and High pH Sulfate Solutions",

abstract = "The kinetics of passive oxide film formation, its thickening, and composition on Ni-22Cr and Ni-22Cr-6Mo wt\% alloys were investigated at selected anodic potentials. Experiments were performed in acidic and alkaline sulfate environments using a number of characterization techniques including a combination of potentiodynamic polarization, on-line atomic emission spectro-electrochemistry (AESEC), in situ potentiostatic passive film growth, along with in situ neutron reflectometry (NR) and ex situ X-ray photoelectron spectroscopy (XPS). The roles of solution pH and Mo on the passivation behavior were discussed in terms of thermodynamic and kinetic factors governing passivation. The pH was found to have an impact on the relative chemical compositions of passive film of the Ni-22Cr alloy but not noticeably for the Ni-22Cr-6Mo alloy. Ni-rich films formed early during the passivation process while Cr(III) enrichment was observed at longer times, albeit less extensively than observed previously in Cl− solutions. The fraction of Cr(III) cations also increased with alloying of Mo at low and high pH demonstrating a strong effect of Mo on Cr(III) content during aqueous passivation in Ni based superalloys, however, a larger effect is seen in Cl−. This is a noteworthy finding as Mo is usually assumed to mainly influence pit and crevice stabilization.",

author = "Katie Lutton and Junsoo Han and Ha, \{Hung M.\} and Debashish Sur and Elena Romanovskaia and Scully, \{John R.\}",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s). Published on behalf of The Electrochemical Society by IOP Publishing Limited.",

year = "2023",

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doi = "10.1149/1945-7111/acb9c3",

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AU - Lutton, Katie

AU - Han, Junsoo

AU - Ha, Hung M.

AU - Sur, Debashish

AU - Romanovskaia, Elena

AU - Scully, John R.

PY - 2023/2

Y1 - 2023/2

N2 - The kinetics of passive oxide film formation, its thickening, and composition on Ni-22Cr and Ni-22Cr-6Mo wt% alloys were investigated at selected anodic potentials. Experiments were performed in acidic and alkaline sulfate environments using a number of characterization techniques including a combination of potentiodynamic polarization, on-line atomic emission spectro-electrochemistry (AESEC), in situ potentiostatic passive film growth, along with in situ neutron reflectometry (NR) and ex situ X-ray photoelectron spectroscopy (XPS). The roles of solution pH and Mo on the passivation behavior were discussed in terms of thermodynamic and kinetic factors governing passivation. The pH was found to have an impact on the relative chemical compositions of passive film of the Ni-22Cr alloy but not noticeably for the Ni-22Cr-6Mo alloy. Ni-rich films formed early during the passivation process while Cr(III) enrichment was observed at longer times, albeit less extensively than observed previously in Cl− solutions. The fraction of Cr(III) cations also increased with alloying of Mo at low and high pH demonstrating a strong effect of Mo on Cr(III) content during aqueous passivation in Ni based superalloys, however, a larger effect is seen in Cl−. This is a noteworthy finding as Mo is usually assumed to mainly influence pit and crevice stabilization.

AB - The kinetics of passive oxide film formation, its thickening, and composition on Ni-22Cr and Ni-22Cr-6Mo wt% alloys were investigated at selected anodic potentials. Experiments were performed in acidic and alkaline sulfate environments using a number of characterization techniques including a combination of potentiodynamic polarization, on-line atomic emission spectro-electrochemistry (AESEC), in situ potentiostatic passive film growth, along with in situ neutron reflectometry (NR) and ex situ X-ray photoelectron spectroscopy (XPS). The roles of solution pH and Mo on the passivation behavior were discussed in terms of thermodynamic and kinetic factors governing passivation. The pH was found to have an impact on the relative chemical compositions of passive film of the Ni-22Cr alloy but not noticeably for the Ni-22Cr-6Mo alloy. Ni-rich films formed early during the passivation process while Cr(III) enrichment was observed at longer times, albeit less extensively than observed previously in Cl− solutions. The fraction of Cr(III) cations also increased with alloying of Mo at low and high pH demonstrating a strong effect of Mo on Cr(III) content during aqueous passivation in Ni based superalloys, however, a larger effect is seen in Cl−. This is a noteworthy finding as Mo is usually assumed to mainly influence pit and crevice stabilization.

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DO - 10.1149/1945-7111/acb9c3

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Passivation of Ni-Cr and Ni-Cr-Mo Alloys in Low and High pH Sulfate Solutions

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