PRODUCTION OF TITANIUM METAL USING HIGH TEMPERATURE ELECTROLYSIS PROCESS: CRITICAL REVIEW
Titanium is a light, strong, and high corrosion resistant metal. Also, it is the ninth abundant element in the Earth's crust. Titanium is commonly used as a structural material in aircraft and implants. Its superior properties allow titanium to be applied to other fields such as automotive,...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/51424 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Titanium is a light, strong, and high corrosion resistant metal. Also, it is the ninth
abundant element in the Earth's crust. Titanium is commonly used as a structural
material in aircraft and implants. Its superior properties allow titanium to be applied to
other fields such as automotive, architecture, and other industries. However, titanium
production process is very difficult and complicated, making titanium price very
expensive so that titanium utilization is still limited. Nowadays, various processes are
developed to replace the current titanium production process (the Kroll process). There
are promising electrolysis processes such as the FFC Cambridge process and the MER
process, which seem more economical than the Kroll process. In this study,
metallurgical aspects of these processes will be studied as well as their application for
titanium production in Indonesia.
This study begins with the collection of reference documents related to titanium and its
production process. Then, documents will be selected based on correlation with the
purpose of the study. After that, the selected documents will be analyzed to answer the
purpose of this study. Further searching and review from the reference are conducted
if there is some unclear information. Lastly, conclusion is drawn based on the
conducted literature study and also suggestion for subsequent research.
Based on the literature study, it was obtained that: (1) in the FFC Cambridge process,
the reduction of titanium oxide at the cathode occurs in several stages at 900 oC. This
makes the decomposition potential of titanium oxide increases as the oxygen content
decrease. Time variations for the electrolysis also produce different products such as
magneli and calcium titanate. The reduction stage of TiO to metal takes the longest
time due to the difficulty of oxygen diffusion. (2) In the MER process, the reduction
reaction at the cathode occurs in one step. However, the carbothermic reduction of TiO2
has to be controlled with suitable TiO2/C ratio to produce a titanium oxycarbide, whose
composition is Ti2CO at 1500 oC. Different compositions of titanium oxycarbide will
affect the anode dissolution during electrolysis at 750 oC. (3) Both of these processes
require different feed for the electrolysis so that this process can be applied in Indonesia
under different conditions. |
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