N. Jallerat scite author profile

N. Jallerat

4Publications

15Citation Statements Received

0Citation Statements Given

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Affiliations

Saint-Gobain (France), French National Centre for Scientific Research

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AES depth profiling of passive overlayers formed on nickel alloys

Lorang

Jallerat

Quang

et al. 1990

Surface & Interface Analysis

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Depth profiling analysis of passive films grown on the surface of two nickel-based alloys (Inconel 600 and Hastelloy C4) in NaCl media was carried out using Auger electron spectroscopy (Am) aod ioo sputtering. Improvement to the sequeotid sputtering model of HofmaM (1976) should be performed when preferential sputtering occurs, especially in Mwxmtaining alloys. In this way, the kinetic model of preferential sputtering of Ho et ul. (1976) was extended to the case of ternary alloys. However, concentration gradients created by the electrochemical treatment in the metallic layers below the oxidized 6lm make it unsuitable. Passive layers (5-11 monolayers) mainly consist of chromium oxide, always located at the film-alloy interface. A layered depth distribution of oxidized species is generally observed: in Inconel, chromium oxide is successively covered with iron and nickel oxides; in Hastelloy, chromium oxide is covered with nickel oxide (only very few molybdenum atoms are depicted in these films). Increasing the passivation potential, the temperature or the NaCI concentration slightly enhances the nickel oxide amounts in the film, its thickness and the external chloride contents.

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Fast method for determination of critical pitting temperature

et al. 1988

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Passivation of NiCrMo alloys in chloride solution a new kinetics model

Jallerat

Quang

1990

Corrosion Science

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Influence of Fe and Mo Alloying Elements on the Composition of Passive Films Formed on Ni–Cr Alloys in an Acidic Chloride Solution

Jallerat¹,

Mischler²,

Landolt³

2023

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N. Jallerat

AES depth profiling of passive overlayers formed on nickel alloys

Fast method for determination of critical pitting temperature

Passivation of NiCrMo alloys in chloride solution a new kinetics model

Influence of Fe and Mo Alloying Elements on the Composition of Passive Films Formed on Ni–Cr Alloys in an Acidic Chloride Solution

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