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Nuclear Technology Volume 67, 1984 - Issue 3
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Technical Paper

The Leaching Behavior of a Glass Waste Form – Part I: The Characteristics of Surface Layers

Takashi MurakamiJapan Atomic Energy Research InstituteDepartment of Environmental Safety Research Tokai, Ibaraki 319-11, Japan
&
Tsunetaka BanbaJapan Atomic Energy Research InstituteDepartment of Environmental Safety Research Tokai, Ibaraki 319-11, Japan
Pages 419-428 | Published online: 13 May 2017

References

  • “Characteristics of Solidified High-Level Waste Products,” Technical Reports Series No. 187, International Atomic Energy Agency, Vienna (1979).
  • L. L. HENCH, D. E. CLARK and E. L. YENBOWER, “Corrosion of Glasses and Glass-Ceramics,” Nucl. Chem. Waste Manage., 1, 59 (1980).
  • B. T. KENNA, “Analysis of Long-Term Soxhlet Tests,” Nucl. Chem. Waste Manage., 3, 69 (1982).
  • D. E. CLARK and L. L. HENCH, “An Overview of the Physical Characterization of Leached Surfaces,” Nucl. Chem. Waste Manage., 2, 93 (1981).
  • J. K. BATES and M. J. STEINDLER, “Alteration of Nuclear Waste Glass by Hydration,” Scientific Basis for Nuclear Waste Management VI, p. 83, D. G. BROOKINS, Ed., North-Holland, New York (1983).
  • W. LUTZE, G. MALOW, H. RABE and T. J. HEADLEY, “Surface Layer Formation of a Nuclear Waste Glass,” Scientific Basis for Nuclear Waste Management VI, p. 37, D. G. BROOKINS, Ed., North-Holland, New York (1983).
  • T. BANBA and S. TASHIRO, “Safety Evaluation of Simulated High-Level Waste Glass Products (I) (Thermal Stability),” JAERI-M 8706, Japan Atomic Energy Research Institute, Tokai, Ibaraki (1980).
  • T. BANBA, H. KIMURA, H. KAMIZONO and S. TASHIRO, “Simulated HLW Compositions for Cold Test of Waste Management Development,” JAERI-M 82-088, Japan Atomic Energy Research Institute, Tokai, Ibaraki (1982).
  • N. F. M. HENRY and K. LONSDALE (Eds.), International Tables for X-Ray Crystallography Vol. I, Kynoch Press, Birmingham, England (1952).
  • L. BRAGG and G. F. CLARINGBULL, Crystal Structures of Minerals, G. Bell and Sons Ltd., London (1965).
  • C. C. ALLEN, “Stability and Alteration of Naturally Occurring Low-Silica Glasses: Implications for the Long-Term Stability of Waste Form Glasses,” Scientific Basis for Nuclear Waste Management V, p. 37, W. LUTZE, Ed., North-Holland, New York (1982).
  • G. MALOW, “The Mechanisms for Hydrothermal Leaching of Nuclear Waste Glasses: Properties and Evaluation of Surface Layers,” Scientific Basis for Nuclear Waste Management V, p. 25, W. LUTZE, Ed., North-Holland, New York (1982).
  • B. GRAMBOW, “The Role of Metal Ion Solubility in Leaching of Nuclear Waste Glasses,” Scientific Basis for Nuclear Waste Management V, p. 93, W. LUTZE, Ed., North-Holland, New York (1982).
  • T. BANBA and T. MURAKAMI, “The Leaching Behavior of a Glass Waste Form II: The Leaching Mechanisms,” to be submitted to Nucl. Technol..
  • F. K. ALTENHEIN, W. LUTZE and G. MALOW, “The Mechanisms for Hydrothermal Leaching of Glass and Glass-Ceramic Nuclear Waste Forms,” Scientific Basis for Nuclear Waste Management III, p. 363, J. G. MOORE, Ed., Plenum Press, New York (1981).
  • B. T. KENNA and K. D. MURPHY, “Mechanism for Elevated Temperature Leaching,” Scientific Basis for Nuclear Waste Management II, p. 191, C. J. M. NORTHRUP, Jr., Ed., Plenum Press, New York (1980).
  • G. G. WICKS, W. C. MOSLEY, P. G. WHITKOP and K. A. SATURDAY, “Durability of Simulated Waste Glass –Effects of Pressure and Formation of Surface Layers,” J. Non-Crystr. Solids, 49, 413 (1982).

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