Synthetic Stannic Phosphate Cation Exchanger
スポンサーリンク
概要
- 論文の詳細を見る
For the purpose of developing ion exchangers which are expected to have a radiation stability, the synthetic inorganic ion exchangers have been studied. In the first place, stannic phosphate was prepared by various methods, and its fundamental properties, such as composition, exchange capacity, chemical stability, thermal stability and radiation stability, were examined in relation to the method of synthesis. Moreover, the recommended preparation method and the structure of the exchanger were suggested. In the second place, attempts were made of the mutual separation of alkali metals to examine the selectivity and the availablity for the column operation of the exchanger. Then, the mutual separation of uranium and various nuclides contained in fission product was carried out by means of a stannic phosphate cation exchanger.
- 東北大学の論文
著者
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Sato Akiko
The Research Institute For Iron Steel And Other Metals
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Inoue Yasushi
The Research Institute For Iron Steel And Other Metals
関連論文
- Irradiation of Natural Uranium by the Neutrons of the Japan Material Testing Reactor
- Studies of the Synthetic Inorganic Ion Exchanger. V. : The Separation of Zirconium-95 and Niobium-95 by Means of a Stannic Phosphate Cation Exchanger
- Synthetic Stannic Phosphate Cation Exchanger
- Studies of the Synthetic Inorganic Ion Exchanger. IV : The Separation of the Fission Product and Uranium by Means of a Stannic Phosphate Cation Exchanger
- Corrosion of Copper in Sulfuric Acid under γ-ray Irradiation
- Effect of Superposition of Alternating Electric Current for Isotope Separation by Ion Exchange Electromigration Method
- Production of Curium by the Neutron Irradiation of Americium-241
- A Systematic Calculation of Nuclear Yields at the Production of Transuranium Elements by Multi-step Neutron Irradiation in a Reactor
- A Determination of the Equilibrium Constant of HTO-H_2S Reaction
- Ultraviolet Spectrophotometric Determination of Tin as Thiocyanato-Complex
- Studies of the Synthetic Inorganic Ion Exchanger. III : The Separation of the Fission Product by Means of a Stannic Phosphate Cation Exchanger
- Hot Atom Chemistry of ^As Using Benzenearsonic Acid as a Target
- The Chemistry of Protactinium. I : The Preparation of Protactinium-233 and the Purification of Protactinium-231
- The Chemistry of Protactinium. VIII. : Synergistic Effect of Di-isobutyl Carbinol on the Pa(V)-TTA-Benzene Solvent Extraction System
- Studies of the Behavior of Trivalent Uranium in an Aqueous Solution. III : Extraction from a Hydrochloric Acid Solution by Bis(n-butyl) Orthophosphoric Acid and by Bis-(2-ethylhexyl) Orthophosphoric Acid
- Hot Atom Chemistry of ^As Using Zirconium Benzenearsonate as Target
- Studies of the Behavior of Trivalent Uranium in Aqueous Solution. I : Its Reduction and Its Stability in Various Acid Solutions
- Studies of the Behavior of Trivalent Uranium in an Aqueous Solution. II : Absorption Spectra and Ion Exchange Behavior in Various Acid Solutions
- The Chemistry of Protactinium. II : The Behavior of Pentavalent Protactinium in a Perchloric Acid Solution
- Studies of the Synthetic Inorganic Ion Exchanger. II : The Properties of Stannic Phosphate
- Studies on the Synthetic Inorganic Ion Exchangers. I : Synthesis of Stannic Phosphate and Some of Its Properties
- Investigation on the complex formation of some lanthanoids(III) and actinoids(III) with chloride and bromide.
- The solvent extraction of Np(III) by means of bis(2-ethylhexyl)hydrogenphosphate in an octane solution and the absorption spectrum of the organic phase.
- Sublimation behavior of tris(2,2,6,6-tetramethyl-3,5-heptanedionato)lanthanoid(III).
- Sublimation behavior of actinoid chelates of 2,2,6,6-tetramethyl-3,5-heptanedione.
- The Chemistry of Protactinium. XI. A Study of the Solvent Extraction of Protactinium(IV) Reduced with Europium(II) from a Perchloric Acid Solution, Using Thenoyltrifluoroacetone as the Extractant