Large-Scale Laboratory Production of Ductile Zirconium

Kroll, W. J.; Anderson, C. Travis; Holmes, H. P.; Yerkes, L. A.; Gilbert, H. L.

doi:10.1149/1.2773819

Cited by 31 publications

(13 citation statements)

References 2 publications

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“…Commercially, zirconium metal is produced by the Kroll process. [2,3] In this process, zirconium dioxide (ZrO 2 ) is chlorinated in presence of carbon at 900°C to produce zirconium tetrachloride (ZrCl 4 ), which is subsequently reduced to zirconium metal by magnesium. The zirconium metal sponge is recovered after distilling magnesium chloride and excess magnesium metal under vacuum at 900°C.…”

Section: Introductionmentioning

confidence: 99%

Electrochemical Deoxidation of Solid Zirconium Dioxide in Molten Calcium Chloride

Mohandas

Fray

2009

Metall Mater Trans B

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The reduction of zirconium dioxide pellets by electro-deoxidation in molten calcium chloridecalcium oxide (900°C) has been studied. In this technique, the solid oxide is cathodically polarized against a graphite counter electrode under a constant applied potential. Unlike other metal oxides that have been reduced by this technique, only a small area around the cathodic current-collector wire was reduced to zirconium metal with zirconia pellets sintered at~1100°C; the rest of the sample was largely calcium zirconate. Pellets sintered above 1200°C showed better reduction near the cathode wire and the reduction extended to the entire surface of the pellet with the passage of time. However, reduction of the inner core was found to be increasingly difficult, because the surface metal layer thickened on continuous electrodeoxidation. An analysis of the experimental results showed that the poor electrical conductivity of the intermediate compound, CaZrO 3 and its blocky morphology inhibited the electrodeoxidation process. The increase in the sintering temperature of the pellet made it better conducting. However, the pores formed in the thick zirconium metal layer in such samples were too small for an ideal contact between the inner core and the molten electrolyte and hence the reduction of the inner core remained incomplete. Within the scope of this study, it is concluded that preforms with good grain growth and porosity are necessary for the electro-deoxidation of solid zirconium oxide.

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Section: Introductionmentioning

confidence: 99%

Electrochemical Deoxidation of Solid Zirconium Dioxide in Molten Calcium Chloride

Mohandas

Fray

2009

Metall Mater Trans B

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“…There have been a few reports on the overall process of zirconium sponge production that include information on the distillation process coupled with thermodynamic data of ZrCl 4 sublimation [4][5][6][7][8][9][10]. The vapor pressures of ZrCl 4 from 480 K to 690 K and from 710 K to 736 K were originally reported by Palko et al [8].…”

Section: Introductionmentioning

confidence: 99%

“…However, only a few countries in the world have access to commercial-scale zirconium industries and have the capability to manufacture reactor-grade zirconium. Metallic zirconium (sponge) can be produced from a magnesiothermic reduction known as Kroll's process [4,5], which is similar to that used for titanium production except that the raw material (TiCl 4 ) is in the liquid state.…”

Section: Introductionmentioning

confidence: 99%

Diffusion coefficient of gaseous zirconium tetrachloride (ZrCl4)

Shin

Park

2015

Fluid Phase Equilibria

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“…The Bureau of Mines process (1)(2)(3)(4) for the reduction of gaseous anhydrous zirconium chloride with magnesium under helium has developed within about 4 years from the test tube to a pilot plant producing regularly 600 pounds of metal a week. The improvements described below concern only the three following phases of this method: refining of the raw chloride, its reduction, and separation of the magnesium chloride from the zirconium sponge.…”

Section: Introductionmentioning

confidence: 99%

“…Transfer of purified gaseous chloride from a central gas producer, through heated pipes and a valve, to the reactor. 3. Tapping the salts produced in the reduction and refilling the crucible with magnesium under a helium-gas seal.…”

Section: Introductionmentioning

confidence: 99%

Improvements in Methods for the Reduction of Zirconium Chloride with Magnesium

Kroll

Hergert

Yerkes

1950

J. Electrochem. Soc.

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It is shown that gaseous zirconium chloride can be piped to a reactor containing magnesium and that the reaction salts can be repeatedly tapped to make room for more magnesium, in view of continuing the reduction. This permits using the crucible capacity more fully, with consequent reduction of the production cost.Experiments indicate that part of the magnesium used for the reduction of zirconium chloride can be replaced with sodium. The advantages and disadvantages of this proposition are discussed.Cast iron is a better crucible material than mild steel when used in contact with hot zirconium. A layer of zirconium carbide is formed by zirconium diffusion, which helps reduce iron contamination.

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Large-Scale Laboratory Production of Ductile Zirconium

Cited by 31 publications

References 2 publications

Electrochemical Deoxidation of Solid Zirconium Dioxide in Molten Calcium Chloride

Electrochemical Deoxidation of Solid Zirconium Dioxide in Molten Calcium Chloride

Diffusion coefficient of gaseous zirconium tetrachloride (ZrCl4)

Improvements in Methods for the Reduction of Zirconium Chloride with Magnesium

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