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2011
Conference Paper
Titel
Oxidation of micro-sized spherical aluminium particles
Abstract
Micro-sized spherical Al particles have recently attracted interest for the development of a new concept for coatings based on their capability to form hollow alumina spheres and aluminized diffusion zones in the substrate. For understanding better their oxidation behaviour, spherical m- Al particles with different sizes were oxidized in air on heating up to 1300°C and under isothermal conditions at 800°C and 850°C. The oxide formation was studied in situ by high temperature X-ray diffraction and the oxidised particles were analysed by scanning electron microscopy. On heating the m-Al particles begin to form a -A12O3 scale before reaching the melting point and the molten Al is kept within the -A1 2O3 shell. On further heating -A12O 3 is detected, which forms simultaneously with the -A1 2O3. The -A12O3 / -A12O3 scale is stable and protective under isothermal conditions up to 800°C within the investigated times. On further heating the -A12O3 and -A12O 3 transform simultan eously to -A12O3 in a temperature range of 850°C to 1100°C. Under isothermal conditions the -A12O3 transformation is observed after 160 min at 850°C. During the -A12O3 transformation shrinkage occurs that leads to formation of pores. A model is proposed describing the mechanism that leads to the formation of the observed whiskers morphologies during the -A12O3 transformation.