Cr, Mo and W alloying additions in Ni and their effect on passivity

The passive corrosion properties of a series of Ni–Cr–Mo alloys were investigated. The alloys studied were C22, C2000, C276, C4 and 625. Potentiostatic experiments at potentials within the passive range were obtained as a function of temperature (25–85 °C) for each alloy. Each specimen was subsequen...

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Published inElectrochimica acta Vol. 49; no. 17; pp. 3015 - 3027
Main Authors Lloyd, Amy C, Noël, James J, McIntyre, Stewart, Shoesmith, David W
Format Journal Article Conference Proceeding
LanguageEnglish
Published Oxford Elsevier Ltd 30.07.2004
Elsevier
Subjects
Anodic polarization
Applied sciences
Corrosion
Corrosion mechanisms
Exact sciences and technology
Metals. Metallurgy
Ni–Cr–Mo alloys
Passivity
Point defect model
Ni–Cr–Mo alloys
Point defect model
Corrosion
Passivity
Anodic polarization
Nickel base alloys
Passivation potential
Electrochemical corrosion
Surface segregation
Secondary ion mass spectrometry
Multi-element alloys
Surface structure
Corrosion resistance
Ni-Cr-Mo alloys
Chemical composition
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Abstract The passive corrosion properties of a series of Ni–Cr–Mo alloys were investigated. The alloys studied were C22, C2000, C276, C4 and 625. Potentiostatic experiments at potentials within the passive range were obtained as a function of temperature (25–85 °C) for each alloy. Each specimen was subsequently analyzed by time-of-flight secondary ion mass spectrometry (TOF SIMS) and X-ray photoelectron spectroscopy (XPS). Results indicated that much lower passive dissolution currents, and a much slower attainment of steady-state conditions, were observed on those alloys with >20 wt.% Cr content. These alloys also consistently showed only a minor temperature dependence of the passive current. The surface analyses showed that the high-Cr alloys were able to build thicker oxides with a layered structure consisting of an inner Cr–Ni oxide layer and an outer Mo/Cr oxide. By contrast, such a high-Cr content inner layer and structured elemental distribution were not achieved with alloys having a lower bulk Cr content. For low potentials (200 mV), when Cr dissolution can only occur as Cr(III), additional alloying elements, specifically Mo and W, exert little influence on passive current densities. At 500 mV, a potential at which Cr(VI) release appears to start, the presence of Mo, and especially W, in the outer regions of the oxide suppresses passive dissolution. This may be due to the low dissolution rate of the W-containing surface oxide layer, but some influence of W on the defect density within the oxide cannot be ruled out. The observed temperature dependence for high-Cr alloys (C22, C2000) reflects the lack of steady state and cannot be interpreted as an accurate activation energy.
AbstractList The passive corrosion properties of a series of Ni-Cr-Mo alloys were investigated. The alloys studied were C22, C2000, C276, C4 and 625. Potentiostatic experiments at potentials within the passive range were obtained as a function of temperature (25-85DGC) for each alloy. Each specimen was subsequently analyzed by time-of-flight secondary ion mass spectrometry (TOF SIMS) and X-ray photoelectron spectroscopy (XPS). Results indicated that much lower passive dissolution currents, and a much slower attainment of steady-state conditions, were observed on those alloys with > 20 wt.% Cr content. These alloys also consistently showed only a minor temperature dependence of the passive current. The surface analyses showed that the high-Cr alloys were able to build thicker oxides with a layered structure consisting of an inner Cr-Ni oxide layer and an outer Mo/Cr oxide. By contrast, such a high-Cr content inner layer and structured elemental distribution were not achieved with alloys having a lower bulk Cr content. For low potentials (200 mV), when Cr dissolution can only occur as Cr(ITI), additional alloying elements, specifically Mo and W, exert little influence on passive current densities. At 500 mV, a potential at which Cr(VI) release appears to start, the presence of Mo, and especially W, in the outer regions of the oxide suppresses passive dissolution. This may be due to the low dissolution rate of the W-containing surface oxide layer, but some influence of W on the defect density within the oxide cannot be ruled out. The observed temperature dependence for high-Cr alloys (C22, C2000) reflects the lack of steady state and cannot be interpreted as an accurate activation energy.
The passive corrosion properties of a series of Ni–Cr–Mo alloys were investigated. The alloys studied were C22, C2000, C276, C4 and 625. Potentiostatic experiments at potentials within the passive range were obtained as a function of temperature (25–85 °C) for each alloy. Each specimen was subsequently analyzed by time-of-flight secondary ion mass spectrometry (TOF SIMS) and X-ray photoelectron spectroscopy (XPS). Results indicated that much lower passive dissolution currents, and a much slower attainment of steady-state conditions, were observed on those alloys with >20 wt.% Cr content. These alloys also consistently showed only a minor temperature dependence of the passive current. The surface analyses showed that the high-Cr alloys were able to build thicker oxides with a layered structure consisting of an inner Cr–Ni oxide layer and an outer Mo/Cr oxide. By contrast, such a high-Cr content inner layer and structured elemental distribution were not achieved with alloys having a lower bulk Cr content. For low potentials (200 mV), when Cr dissolution can only occur as Cr(III), additional alloying elements, specifically Mo and W, exert little influence on passive current densities. At 500 mV, a potential at which Cr(VI) release appears to start, the presence of Mo, and especially W, in the outer regions of the oxide suppresses passive dissolution. This may be due to the low dissolution rate of the W-containing surface oxide layer, but some influence of W on the defect density within the oxide cannot be ruled out. The observed temperature dependence for high-Cr alloys (C22, C2000) reflects the lack of steady state and cannot be interpreted as an accurate activation energy.
Author Lloyd, Amy C
Noël, James J
Shoesmith, David W
McIntyre, Stewart
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  givenname: James J
  surname: Noël
  fullname: Noël, James J
  email: jjnoel@uwo.ca
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  givenname: Stewart
  surname: McIntyre
  fullname: McIntyre, Stewart
  email: smcintyr@uwo.ca
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– sequence: 4
  givenname: David W
  surname: Shoesmith
  fullname: Shoesmith, David W
  email: dwshoesm@uwo.ca
  organization: Department of Chemistry, The University of Western Ontario, London, Ont., Canada N6A 5B7
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Issue 17
Keywords Ni–Cr–Mo alloys
Point defect model
Corrosion
Passivity
Anodic polarization
Nickel base alloys
Passivation potential
Electrochemical corrosion
Surface segregation
Secondary ion mass spectrometry
Multi-element alloys
Surface structure
Corrosion resistance
Ni-Cr-Mo alloys
Chemical composition
Language English
License CC BY 4.0
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SSID ssj0007670
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Snippet The passive corrosion properties of a series of Ni–Cr–Mo alloys were investigated. The alloys studied were C22, C2000, C276, C4 and 625. Potentiostatic...
The passive corrosion properties of a series of Ni-Cr-Mo alloys were investigated. The alloys studied were C22, C2000, C276, C4 and 625. Potentiostatic...
SourceID proquest
crossref
pascalfrancis
elsevier
SourceType Aggregation Database
Index Database
Publisher
StartPage 3015
SubjectTerms Anodic polarization
Applied sciences
Corrosion
Corrosion mechanisms
Exact sciences and technology
Metals. Metallurgy
Ni–Cr–Mo alloys
Passivity
Point defect model
Title Cr, Mo and W alloying additions in Ni and their effect on passivity
URI https://dx.doi.org/10.1016/j.electacta.2004.01.061
https://search.proquest.com/docview/28120662
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