M. Herinx scite author profile

The first stages of oxidation of the (1 1 0) surface of a γ-Al(4)Cu(9) complex metallic alloy were investigated by combining x-ray photoemission spectroscopy, low energy electron diffraction and scanning tunnel microscopy studies. Oxidation at room temperature in the 2 × 10(-8) to 2 × 10(-7) mbar oxygen pressure range occurs in two steps: a fast regime is followed by a much slower one, leading to the formation of a thin aluminium oxide film showing no long range order. Cu-O bonds are never observed, due to fast oxygen induced aluminium segregation. The low value of the estimated activation energy for aluminium diffusion (0.65 ± 0.12 eV at(-1)) was ascribed to the presence of two vacancies in the γ-Al(4)Cu(9) structure. Annealing at 925 K the oxide film formed at room temperature leads to the formation of small crystallized domains with a sixton structure similar to structures reported in the literature following the oxidation of Cu-9% Al(1 1 1), NiAl (1 1 0) and FeAl(1 1 0) surfaces as well as ultrathin Al films deposited onto Cu(1 1 1) or Ni(1 1 1) surfaces. Two contributions were observed in the O1s peaks, which have been ascribed to loosely bound oxygen species and oxygen belonging to the sixton structure respectively.

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Adsorption of O2 and C2H (n= 2, 4, 6) on the Al9Co2(0 0 1) and o-Al13Co4(1 0 0) complex metallic alloy surfaces

Wardé

Herinx

Ledieu

et al. 2015

Applied Surface Science

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High Temperature Oxidation of the Al3Mg2 Complex Metallic Alloy

et al. 2009

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International audienceHigh temperature air oxidation of the Al3Mg2 complex metallic alloy was investigated on powder samples and bulk polycrystals in the temperature range 350–420 °C by thermogravimetric measurements, SEM and TEM. Oxidation at 420 °C on the polycrystalline samples comprised three successive phases characterised by linear kinetics laws. The first stage corresponded to the formation of a porous non adherent nanocrystalline MgO scale having a cauliflower morphology. A first acceleration in the kinetics law was ascribed to the nucleation and growth of MgAl2O4 crystallites which form a thin (~10 nm) film at the interface between the substrate alloy and the MgO top layer. A new linear regime was observed in the oxidation process corresponding to diffusion of magnesium through the grain boundaries of the spinel film and through the porous MgO layer. Finally, fragmentation and cracking of the scale leads to a further acceleration followed by a new linear regime

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M. Herinx

Influence of 1,2-diaminoethane on the mechanism of aluminium corrosion in sulphuric acid solutions

Growth and structure of ultrathin alumina films on the (1 1 0) surface ofγ-Al₄Cu₉complex metallic alloy

Adsorption of O2 and C2H (n= 2, 4, 6) on the Al9Co2(0 0 1) and o-Al13Co4(1 0 0) complex metallic alloy surfaces

High Temperature Oxidation of the Al3Mg2 Complex Metallic Alloy

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M. Herinx

Influence of 1,2-diaminoethane on the mechanism of aluminium corrosion in sulphuric acid solutions

Growth and structure of ultrathin alumina films on the (1 1 0) surface ofγ-Al4Cu9complex metallic alloy

Adsorption of O2 and C2H (n= 2, 4, 6) on the Al9Co2(0 0 1) and o-Al13Co4(1 0 0) complex metallic alloy surfaces

High Temperature Oxidation of the Al3Mg2 Complex Metallic Alloy

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Product

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Growth and structure of ultrathin alumina films on the (1 1 0) surface ofγ-Al₄Cu₉complex metallic alloy