A method to study the history of a double oxide film defect in liquid aluminum alloys

• Published in: Metallurgical and materials transactions. B, Process metallurgy and materials processing science Vol. 37; no. 6; pp. 865 - 871
• Main Authors: RAISZADEH, R, GRIFFITHS, W. D
• Format: Journal Article
• Language: English
• Published: Heidelberg Springer 01.12.2006; Springer Nature B.V
• Subjects: Aluminum alloys; Applied sciences; Defects; Exact sciences and technology; Hydrogen; Metallography; Metallurgy; Metals. Metallurgy; Nitrogen; Oxygen; Production of metals; Defect; Oxidation; Liquid alloy; Oxide layer
• ISSN: 1073-5615; 1543-1916
• DOI: 10.1007/BF02735007

Entrained double oxide films have been held responsible for reductions in mechanical properties in aluminum casting alloys. However, their behavior in the liquid metal, once formed, has not been studied directly. It has been proposed that the atmosphere entrapped in the double oxide film defect will continue to react with the liquid metal surrounding it, perhaps leading to its elimination as a significant defect. A silicon-nitride rod with a hole in one end was plunged into liquid aluminum to hold a known volume of air in contact with the liquid metal at a constant temperature. The change in the air volume with time was recorded by real-time X-ray radiography to determine the reaction rates of the trapped atmosphere with the liquid aluminum, creating a model for the behavior of an entrained double oxide film defect. The results from this experiment showed that first oxygen, and then nitrogen, was consumed by the aluminum alloy, to form aluminum oxide and aluminum nitride, respectively. The effect of adding different elements to the liquid aluminum and the effect of different hydrogen contents were also studied. [PUBLICATION ABSTRACT]