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Pure Appl. Chem., 2001, Vol. 73, No. 5, pp. 799-806

Dissolution and formation of nuclear materials in molten media

T. Ogawa* and K. Minato

Japan Atomic Energy Research Institute, Tokai-mura, Naka-gun, Ibaraki-ken, 319-1195 Japan

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  • Periasamy Prakash, Hurley Michael F., Marx Brian M., Simpson Michael F., Butt Darryl P.: Compatibility of ZrN and HfN with molten LiCl–KCl–NaCl–UCl3. J  Nucl Mater 2010, 405, 266. <>
  • Vandarkuzhali S., Venkatesh P., Ghosh Suddhasattwa, Seenivasan G., Prabhakara Reddy B., Subramanian T., Sivaraman N., Nagarajan K.: Electrochemistry of rare earth oxy ions REO+ (RE=Ce, La, Nd) in molten MgCl2–NaCl–KCl eutectic. Journal of Electroanalytical Chemistry 2007, 611, 181. <>
  • Ghosh Suddhasattwa, Vandarkuzhali S., Venkatesh P., Seenivasan G., Subramanian T., Reddy B. Prabhakara, Nagarajan K.: Redox behaviour of cerium oxychloride in molten MgCl2–NaCl–KCl eutectic. Electrochimica Acta 2006, 52, 1206. <>
  • Ryu Ho Jin, Lee Young Woo, Cha Seung Il, Hong Soon Hyung: Sintering behaviour and microstructures of carbides and nitrides for the inert matrix fuel by spark plasma sintering. J  Nucl Mater 2006, 352, 341. <>
  • Castrillejo Y., Bermejo M.R., Barrado A.I., Pardo R., Barrado E., Martínez A.M.: Electrochemical behaviour of dysprosium in the eutectic LiCl–KCl at W and Al electrodes. Electrochimica Acta 2005, 50, 2047. <>
  • Gong Weiping, Gaune-Escard Marcelle, Rycerz L.: Thermodynamic assessment of LiCl–NdCl3 and LiCl–PrCl3 quasi-binary systems. J Alloys Comp 2005, 396, 92. <>