Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting

Kouji Mimura,; Michio Nanjo,

doi:10.1515/HTMP.1988.8.1.29

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Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting

Kouji Mimura, und Michio Nanjo,

Veröffentlicht/Copyright: 6. Mai 2011

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Aus der Zeitschrift High Temperature Materials and Processes Band 8 Heft 1

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Mimura,, Kouji and Nanjo,, Michio. "Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting" High Temperature Materials and Processes, vol. 8, no. 1, 1988, pp. 29-38. https://doi.org/10.1515/HTMP.1988.8.1.29

Mimura,, K. & Nanjo,, M. (1988). Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting. High Temperature Materials and Processes, 8(1), 29-38. https://doi.org/10.1515/HTMP.1988.8.1.29

Mimura,, K. and Nanjo,, M. (1988) Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting. High Temperature Materials and Processes, Vol. 8 (Issue 1), pp. 29-38. https://doi.org/10.1515/HTMP.1988.8.1.29

Mimura,, Kouji and Nanjo,, Michio. "Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting" High Temperature Materials and Processes 8, no. 1 (1988): 29-38. https://doi.org/10.1515/HTMP.1988.8.1.29

Mimura, K, Nanjo, M. Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting. High Temperature Materials and Processes. 1988;8(1): 29-38. https://doi.org/10.1515/HTMP.1988.8.1.29

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Published Online: 2011-05-06

Published in Print: 1988-09

Artikel in diesem Heft

CONTENTS
Thermodynamic Properties of Liquid Metals Including Rare Metals Using Simple Model Theories
Characteristic Structural Features of Rare Metals in the Liquid State
Extraction of Uranium by Emulsion Liquid Membranes Containing ß-Diketones and Tributyl Phosphate
Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting
Ultra Fine Powder from Alloy Resources via Alkoxide. (Resources Chain and Primary Innovation)
Applications of Rare Earth Metals as Magnetic and Electronic Materials
X-ray Absorption Edge for Rare Metals (Lanthanoid and Actinoid) Estimated by Calculating the Energy Dependence of the Anomalous Dispersion Factors
Some Interesting Aspects of Non-ferrous Metallurgical Slags

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https://doi.org/10.1515/HTMP.1988.8.1.29

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Artikel in diesem Heft

CONTENTS
Thermodynamic Properties of Liquid Metals Including Rare Metals Using Simple Model Theories
Characteristic Structural Features of Rare Metals in the Liquid State
Extraction of Uranium by Emulsion Liquid Membranes Containing ß-Diketones and Tributyl Phosphate
Production of High-Purity Niobium by Carbon Reduction Smelting and Electron Beam Melting
Ultra Fine Powder from Alloy Resources via Alkoxide. (Resources Chain and Primary Innovation)
Applications of Rare Earth Metals as Magnetic and Electronic Materials
X-ray Absorption Edge for Rare Metals (Lanthanoid and Actinoid) Estimated by Calculating the Energy Dependence of the Anomalous Dispersion Factors
Some Interesting Aspects of Non-ferrous Metallurgical Slags