Optimizations of electric current assisted chemical milling condition of 2219 aluminum alloy

[Display omitted] The chemical milling condition of 2219 aluminum alloy is investigated in the NaOH+Na2S+triethanolamine+Al3+ alkaline system by the assistance of electric currents. The purpose is to study the influences of electric current densities on both the milling rate and the surface roughnes...

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Bibliographic Details
Published in:Journal of materials processing technology 2017-11, Vol.249, p.379-385
Main Authors: Li, Qiushi, Wang, Jihui, Hu, Wenbin
Format: Article
Language:English
Subjects:
Aluminum
Aluminum alloy
Aluminum alloys
Chemical machining
Chemical milling
Current density
Density
Electric current
Electric currents
Inhibitors
Milling rate
Surface roughness
Temperature
Triethanolamine
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Summary:[Display omitted] The chemical milling condition of 2219 aluminum alloy is investigated in the NaOH+Na2S+triethanolamine+Al3+ alkaline system by the assistance of electric currents. The purpose is to study the influences of electric current densities on both the milling rate and the surface roughness of 2219 alloy under different temperatures, NaOH concentrations and additions of inhibitors. The experiments are carried out under the given requirement that the milling rate is from 0.08mm/min to 0.14mm/min and the surface roughness is less than 0.65μm. The reaction temperature of the chemical milling process can be reduced by 10°C with the application of current densities in the range of 0–20mA/cm2. The concentration of NaOH in the alkaline system can be reduced from 180g/L to 120g/L with the application of current densities in the range of 0–60mA/cm2. With the addition of Na2SiO3, Na2CO3 and Na2SnO3 inhibitors in the alkaline system, both the milling rate and the surface roughness of 2219 alloy decrease. The region enclosed with the suitable NaOH concentration and current density expands and moves towards the high current density.
ISSN:0924-0136
1873-4774
DOI:10.1016/j.jmatprotec.2017.06.028