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The high temperature oxidation of Al-4.2 Wt Pct Mg alloy

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Abstract

The high temperature oxidation of Al-Mg alloys is characterized by the rapid formation of thick, micro-crystalline oxide films. The oxidation kinetics of an Al-4.2 wt pct Mg alloy under dry and moist 20 pct O2/Ar have been measured, and oxide films grown on bulk specimens complementary to the weight gain curves have been characterized using electron optical techniques (TEM, SEM). Initial oxidation takes place by the nucleation and growth of primary crystalline oxides at the oxide/metal interface and by the formation of secondary oxides of MgO by the reduction of the original amorphous over-layer of γ-Al2O3 by Mg. Subsequent oxidation is dominated by the further nucleation and growth of primary oxides. The presence of water vapor in the oxidizing environment initially reduces oxidation rates through a modification of the mechanical properties of the amorphous overlayer but does not affect the overall oxidation mechanism. A microstructural model has been developed which describes oxidation of Al-Mg alloys in terms of fracture of the original air-formed film by primary MgO nucleation and growth and modification to this film by the presence of water vapor in the oxidizing environment.

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Authors and Affiliations

  1. Banbury Laboratories, Alcan International Limited, 0X16 7SP, Banbury, Oxon, England

    D. J. Field (Research Scientist) & G. M. Scamans (Principal Scientist)

  2. Alcan International Limited, Banbury

    E. P. Butler (Principal Scientist)

Authors
  1. D. J. Field
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  2. G. M. Scamans
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  3. E. P. Butler
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Formerly at Imperial College, London.

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Field, D.J., Scamans, G.M. & Butler, E.P. The high temperature oxidation of Al-4.2 Wt Pct Mg alloy. Metall Trans A 18, 463–472 (1987). https://doi.org/10.1007/BF02648807

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  • DOI: https://doi.org/10.1007/BF02648807

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