Formation and characterization of nano oxide film of al (Mg-Cu) alloy /
Heba Mageed Emam Elfares
Formation and characterization of nano oxide film of al (Mg-Cu) alloy / تكوين وتوصيف طبقة الاكسيد الانودي النانوي علي سبيكة الالومنيوم ( ماغنسيوم نحاس Heba Mageed Emam Elfares ; Supervised Saad Megahed Elraghy , Randa Mohamed Abdelkarim - Cairo : Heba Mageed Emam Elfares , 2015 - 77 P. : charts , facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
The effect of voltage and concentration of electrolyte on the structure of porous anodic alumina (PAA), via electrochemical anodizing of aluminum alloy was studied. The weight change, roughness and corrosion rate were measured. Nano porous anodic alumina templates are fabricated following the one-step anodizing at room temperature, (5, 10,20 and 40) volt and (5%, 15% and 30%) concentration (H3PO4) . Formation of barrier oxide layer in 5% concentration at (5 and 10) volt and the porous oxide layer was formed at another conditions. When the anodizing voltage increases the roughness and the corrosion rate increases
AL(Mg-Cu) alloy Electrodeposition Nanostructures
Formation and characterization of nano oxide film of al (Mg-Cu) alloy / تكوين وتوصيف طبقة الاكسيد الانودي النانوي علي سبيكة الالومنيوم ( ماغنسيوم نحاس Heba Mageed Emam Elfares ; Supervised Saad Megahed Elraghy , Randa Mohamed Abdelkarim - Cairo : Heba Mageed Emam Elfares , 2015 - 77 P. : charts , facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
The effect of voltage and concentration of electrolyte on the structure of porous anodic alumina (PAA), via electrochemical anodizing of aluminum alloy was studied. The weight change, roughness and corrosion rate were measured. Nano porous anodic alumina templates are fabricated following the one-step anodizing at room temperature, (5, 10,20 and 40) volt and (5%, 15% and 30%) concentration (H3PO4) . Formation of barrier oxide layer in 5% concentration at (5 and 10) volt and the porous oxide layer was formed at another conditions. When the anodizing voltage increases the roughness and the corrosion rate increases
AL(Mg-Cu) alloy Electrodeposition Nanostructures