Nucleation and growth of Al<sub>2</sub>O<sub>3</sub>/metal composites by oxidation of aluminum alloys

Salas, O.; Hu, Ni; Jayaram, Vikram; Vlach, K. C.; Levi, Carlos G.; Mehrabian, R.

doi:10.1557/jmr.1991.1964

Cited by 88 publications

(44 citation statements)

References 25 publications

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“…As indicated in Fig. 1 (d), compared with pure magnesium which exhibits a linear law due to the loose and porous structure of MgO [20], Mg-Y alloys shows a parabolic law. The change of the oxidation behaviors means that a relatively dense and protective oxide film has formed after isothermal oxidation by addition of yttrium.…”

Section: Isothermal Oxidation Behaviorsmentioning

confidence: 85%

Early oxidation behaviors of Mg–Y alloys at high temperatures

Wang

Zeng

Zhou

et al. 2008

Journal of Alloys and Compounds

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Section: Isothermal Oxidation Behaviorsmentioning

confidence: 85%

Early oxidation behaviors of Mg–Y alloys at high temperatures

Wang

Zeng

Zhou

et al. 2008

Journal of Alloys and Compounds

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“…Thus, a mixed structure of MgO and Nd 2 O 3 is expected to produce in the oxide layer, which is in agreement with the above experimental results. Then, the formed Nd 2 O 3 / MgO oxide layer can retard the outward Mg 2+ diffusion, which has been generally accepted to control the growth of the oxide film [37,38]. Consequently, the further oxidation rate of MgNd alloys is decreased as shown in Fig.…”

Section: Discussionmentioning

confidence: 99%

Surface oxidation behavior of MgNd alloys

Wang¹,

Zeng²,

Wu³

et al. 2007

Applied Surface Science

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“…9) A sectional view of this thermally-formed magnesium oxide on a pure magnesium sample heated at 700 K for 3:6 Â 10 3 s after being polished by abrasive papers (from P400 to P2000) is shown in Fig. 5.…”

Section: Thermally-formed Magnesium Oxidementioning

confidence: 99%

Thermally-Formed Oxide on Aluminum and Magnesium

Shih

Liu

2006

Mater. Trans.

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Pure aluminum and magnesium cube samples were heated at a specific temperature for a given time after being polished by abrasive papers. The amorphous layer that formed on the sample surface was transformed into a crystallized oxide film during the heating and holding period. We discuss how this thermally-formed oxide film progressively developed on the surface of the cubic samples. Gibbsite (Al(OH) 3 ) forms on pure aluminum during the initial stage of heating, after which it is then transformed to complex oxides, diaspore and -alumina. After an extended holding time at 883 K, the thermally-formed oxide film will be comprised of gibbsite, diaspore, -Al 2 O 3 and -alumina. This thermally-formed oxide film is compact and contains evenly-distributed microchannels. With pure magnesium, the transformation of periclase from brucite is associated with the formation of microcracks. In this study we use TGA (thermo-gravimetric analysis) to describe the progressive development of complex oxides and periclase films on pure Al and Mg respectively.

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Nucleation and growth of Al₂O₃/metal composites by oxidation of aluminum alloys

Cited by 88 publications

References 25 publications

Early oxidation behaviors of Mg–Y alloys at high temperatures

Early oxidation behaviors of Mg–Y alloys at high temperatures

Surface oxidation behavior of MgNd alloys

Thermally-Formed Oxide on Aluminum and Magnesium

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Nucleation and growth of Al2O3/metal composites by oxidation of aluminum alloys

Cited by 88 publications

References 25 publications

Early oxidation behaviors of Mg–Y alloys at high temperatures

Early oxidation behaviors of Mg–Y alloys at high temperatures

Surface oxidation behavior of MgNd alloys

Thermally-Formed Oxide on Aluminum and Magnesium

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Product

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Nucleation and growth of Al₂O₃/metal composites by oxidation of aluminum alloys