Bibliographic citations
Vergara, A., (2010). Influencia de las variables de operación del proceso de anodizado del aluminio sobre el comportamiento anticorrosivo de la película de óxido de aluminio [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/1065
Vergara, A., Influencia de las variables de operación del proceso de anodizado del aluminio sobre el comportamiento anticorrosivo de la película de óxido de aluminio [Tesis]. : Universidad Nacional de Ingeniería; 2010. http://hdl.handle.net/20.500.14076/1065
@mastersthesis{renati/704416,
title = "Influencia de las variables de operación del proceso de anodizado del aluminio sobre el comportamiento anticorrosivo de la película de óxido de aluminio",
author = "Vergara Sotomayor, Abel Fernando",
publisher = "Universidad Nacional de Ingeniería",
year = "2010"
}
This thesis is a detailed study of the aluminum anodizing process, following the same procedure done on an industrial scale. The variables were identified as the most influential in the operation with the following parameters: concentration of the acid solution, temperature and current density at constant time operation, which was of 45 minutes. The study aims to establish the optimum range to obtain a film of aluminum oxide, which retains its aesthetic appeal but also possesses a high corrosion resistance after sealing process. The anodizing process was performed using an aqueous solution of H2SO4. The surface of the aluminum plates were used for anodizing the chemically treated to remove the marks of the extrusion process inherent in producing them. The removal of the aluminum oxide is produced by contact with the medium aluminum environment. As starting material for the experiment, we used an aluminum alloy called Al 6063, which is the same material used in the Peruvian industry to produce profiles in Esther flat or angular, and which performs a process of anodizing. The changes in the anodizing process variables that were considered in this study were: current density (1; 1,5; 2 A/dm 2), temperature (15; 20; 25ºC) and concentration (10; 15; 20%) of the H2SO4 solution. Having established the influence of these variables and which were the most suitable for film formation of porous aluminum oxide with the greatest resistance to corrosion, then the aluminum oxide films were sealed for 30 minutes. To determine the effect on this resistance the Electrochemical Impedance Test was used.
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