D. Mantha scite author profile

Isothermal oxidation behavior of Ti-48.6 at. pct Al alloy was studied in pure dry oxygen over the temperature range 850 ЊC to 1000 ЊC. The oxidation was essentially parabolic at all temperatures with significant increase in the rate at 1000 ЊC. Effective activation energy of 404 kJ/mol was deduced. The oxidation products were a mixture of TiO 2 (rutile) and ␣-Al 2 O 3 at all temperatures. An external protective layer of alumina was not observed on this alloy at any of the temperatures studied. A layered structure of oxides was formed on the alloy at 1000 ЊC.

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Electrorefining of aluminum alloy in ionic liquids at low temperatures

Kamavaram¹,

Mantha²,

Reddy

2003

J min metall B Metall

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The electrorefining of aluminum alloy (A360) in ionic liquids at low temperatures has been investigated. The ionic liquid electrolyte was prepared by mixing anhydrous AlCl3 and 1-Butyl-3- methylimidazolium chloride (BMIC) in appropriate proportions. The effect of the cell voltage temperature, and the composition of the electrolyte on the electrorefining process has been studied. The characterization of the deposited aluminum was performed using scanning electron microscopy (SEM) and X-ray diffraction (XRD) techniques. The influence of experimental parameters such as cell voltage and concentration of AlCl3 in the electrolyte on the deposit morphology was discussed. The composition of the aluminum deposits was analyzed using X-ray fluorescence spectrometer (XRF). Aluminum deposits with purity higher than 99.89 % were obtained. At a cell voltage of 1.0 V vs. Al/Al(III), the energy consumption was about 3 kWh/kg-Al. The main advantage of the process is low energy consumption compared to the existing industrial aluminum refining process

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Applicability of butler’s equation in interpreting the thermodynamic behavior of surfaces and adsorption in Fe-S-O melts

Hajra

Mantha

1996

Metall Mater Trans B

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D. Mantha

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Electrorefining of aluminum alloy in ionic liquids at low temperatures

Applicability of butler’s equation in interpreting the thermodynamic behavior of surfaces and adsorption in Fe-S-O melts

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