Reduction of TiCl<SUB>4</SUB> in Molten Salt/Liquid Metal Mixtures
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- Michishita Naonori
- Institute for Advanced Materials Processing, Tohoku University
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- Okabe Toru H.
- Institute for Advanced Materials Processing, Tohoku University
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- Sakai Naohide
- Kokan Keisoku Co. Ltd.
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- Tanaka Junichi
- Kokan Keisoku Co. Ltd.
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- Nikami Kaworu
- N.K.R. Co. Ltd.
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- Umetsu Yoshiaki
- Institute for Advanced Materials Processing, Tohoku University
Bibliographic Information
- Other Title
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- 溶融塩・液体金属の混合体を利用したTiCl<SUB>4</SUB>の還元
- 溶融塩・液体金属の混合体を利用したTiCl4の還元
- ヨウユウエン エキタイ キンゾク ノ コンゴウタイ オ リヨウ シタ TiCl4 ノ カンゲン
- Reduction of TiCl4 in molten salt/liquid metal mixtures
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Abstract
With the purpose of developing a new process for titanium powder production, a fundamental investigation on TiCl4 reduction in a reaction medium consisting of a mixture of molten salt and metal magnesium at 973 K was carried out. By applying an electrochemical potential on a feed injection nozzle, clogging of the feed tube was prevented. This anodic polarization technique is shown to be useful for feeding TiCl4 directly into the reactive reaction medium. As an alternate method for TiCl4 feed into the medium, a well-type mixer was specially designed and fabricated, and conditions for effective mixing of molten salt and metal phases were investigated. A preliminary experiment using water and oil showed that even the gas phase can be involved in the reaction medium under high rotation speed mixing (>700 min−1). When TiCl4 gas was fed into the gas phase above the reaction medium, some part of the feed reacted with the medium and was reduced to titanium metal. However, a major portion of the feed was reduced on the metal wall of the reaction container. When solidified TiCl4 was charged into the medium mixed by the mixer, titanium deposit in powder and sponge form was obtained. The amount of titanium power was increased with increasing rotation speed of the mixer. The mixture of molten salt and liquid metal is shown to be useful as a reaction medium for titanium powder production, however, the titanium deposit was found to adhere to the reaction wall under certain conditions.
Journal
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- Journal of the Japan Institute of Metals and Materials
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Journal of the Japan Institute of Metals and Materials 64 (10), 940-947, 2000
The Japan Institute of Metals and Materials
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Details 詳細情報について
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- CRID
- 1390282681467155584
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- NII Article ID
- 130007341084
- 10005343354
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- NII Book ID
- AN00187860
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- ISSN
- 18806880
- 24337501
- 00214876
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- NDL BIB ID
- 5538217
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- Data Source
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- JaLC
- NDL
- Crossref
- CiNii Articles
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- Abstract License Flag
- Disallowed