Development of the manufacturing technique of crucibles to melt aluminum and improve its physical and mechanical properties by microwave oven

There are several techniques that are used to melt metal materials, among which we have conventional casting, by agitation, by compression and by molding. It is currently being studied in a technique based on electromagnetic radiation with the implementation of conventional microwave oven, thus impr...

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Bibliographic Details
Published in:Journal of physics. Conference series 2020-12, Vol.1708 (1), p.12015
Main Authors: Perez-Rangel, N Y, Florez-Solano, E, Espinel-Blanco, E
Format: Article
Language:English
Subjects:
Aluminum
Casting
Crucibles
Electromagnetic radiation
Levitation casting
Mechanical properties
Melt temperature
Microwaves
Physical properties
Physics
Pressure molding
Silicon carbide
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Summary:There are several techniques that are used to melt metal materials, among which we have conventional casting, by agitation, by compression and by molding. It is currently being studied in a technique based on electromagnetic radiation with the implementation of conventional microwave oven, thus improving the results in terms of time in the casting process; to carry out this electromagnetic casting process, a high-frequency wave-receiving medium is required to reach the melting temperature of the material on which it is being worked. In the case of aluminum, a working temperature of approximately 700 °C is required to achieve phase change of the material. This project produces a fine-grained silicon carbide-based crucible, taking into account that it is a semiconductor and refractory material capable of capturing electromagnetic waves, for the purpose of allowing the use of a microwave oven in the aluminum smelting process; presenting in this way a new casting technique that promises a significant saving in the execution time and saving the implementation process in recycling and reuse of aluminum and improving its physical and mechanical properties by means of irradiation casting electromagnetic.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1708/1/012015