Hydrogen Isotope Research Center - Toyama Univ.


Data Base for Tritium Solid Breeding Materials (Li2O, Li2TiO3, Li2ZrO3 and Li4SiO4) of Fusion Reactor Blankets --- Yoshiaki FUTAMURA

10. References

  1. Y. Futamura, K. Horii and H. Kawamura, Ann. Rept. Hydrogen Isot. Res. Ctr. Toyama Univ., 15 (1995) 85-111.
  2. Y. Futamura and H. Kawamura, Ann. Rept. Hydrogen Isot. Res. Ctr. Toyama Univ., 16 (1996) 93-.
  3. Y. Futamura, K. Tsuchiya and H. Kawamura, Ann. Rept. Hydrogen Isot. Res. Ctr. Toyama Univ., 17 (1997) 97-109.
  4. Y. Futamura, K. Tsuchiya and H. Kawamura, Ann. Rept. Hydrogen Isot. Res. Ctr. Toyama Univ., 19 (1999) 65-87.
  5. Y. Futamura, K. Tsuchiya and H. Kawamura, Ann. Rept. Hydrogen Isot. Res. Ctr. Toyama Univ., 20 (2000) 63-67.
  6. Research Group for Fusion Reactor, "Breeding and Recovery Characteristics of Tritium Breeders for Fusion Reactor", Annual Report on Grants-in Aid for Scientic Research, (1988).
  7. ITER Documentation Series, No. 29, ITER BLANKET, SHIELD AND MATERIAL DATA BASE, IAEA, (1991).
  8. D. J. Suiter, "Lithium Based Ceramics for tritium Breeding Applications", McDonnel Douglas Astronautics Company Report MDC E2677 (UC-20), June 1983.
  9. J. W. Davis, "Materials Handbook for Fusion Energy Systems", U. S. Department of Energy Report, DOE/TIC-10122 (1980-1986).
  10. ITER Material Evaluation and Data Base by D. Smith, I. V. Altovsky, V. R. Barabash, J. Beasten, M. Billone, J. L. Boutard etc., From two Specialist Meeting on Material Data base held at the ITER site in Garching in June 1988 and Feb. 1990.

  11. T. Takahashi and T. Kikuchi, "Porosity Dependense on Thermal Diffusivity and Thermal Conductivity of Li2O from 200 to 900 °C", J. Nucl. Mater., 91 (1980) 93.
  12. M. C. Billon, W. Dienst, T. Flament, P. Lorenzette, K. Noda and N. Roux, "ITER Solid Breeder Blanket Materials Database", May 1933, ANL/FPP/TM-263
  13. T. Tanifuji, K. Shiozawa, S. Nasu, J. Nucl. Mater., 78 (1978) 422.
  14. E. N. Rodingina, K. Z. Gomelskii, Russ. J. Phys. Chem., (1961) 898.
  15. H. Kudo, C. H. Wu and H. R. Ihle, "Mass-spectrometric Study of the Vaporization of Li2O(s) and Thermochemistry of Gaseous LiO, Li2O, Li3O and Li2O2", J. Nucl. Mater., (1987) 380.
  16. M. C. Billone and W. T. Grayhack, "Summary of Mechanical Properties Data and Correlations for Li2O, Li4SiO4, LiAlO2 and Be", Argonne National Laboratory Report ANL/FPP/TM-218, April 1990.
  17. W. Dienst, H. Zimmerman, "Investigation of the Mechanical Properties of Ceramic Breeder Materials", J. Nucl. Mater., 155-157 (1988) 476.
  18. S. Hull et al., "The Elastic Properties of Lithium Oxide and Their Variation with Temperature", J. Nucl. Mater., 160 (1988) 125.
  19. H. Kudo, S. O'hira, M. Fujie and K. Noda, "Interaction of Tritium Gas with Li2O Crystals and Dissolution Processes", J. Nucl. Mater., (1991) 800.
  20. H. Katsuta, S. Konishi and H. Yoshida, J. Nucl. Mater., 116 (1983) 244.
  21. D. W. Jeppso and R. F. Keough, J. Nucl. Mater., 103-104 (1981) 56.
  22. D. L. Porter, J. R. Krsul, M. T. Lang, L. C. Walters and M. Tetenbaun, "Neutron Irradiation and Compatibility Testing Li2O", J. Nucl. Mater., 122-123 (1984) 929.
  23. P. Hoffman and W. Dienst, "Chemical Compatibility Between Lithium-Based Oxide Ceramics and Stainless Steels", J. Nucl. Mater., 141-143 (1986) 289.
  24. O. K. Chopra and D. L. Smith, Oak Ridge National Laboratory Report, DOE/ER-0045/8 (1982) 507-513.
  25. P. Hoffman and W. Dienst, "Compatibility Studies of Metallic Materials with Lithium-Based Oxides, J. Nucl. Mater., 155-157 (1988) 485.
  26. H. L. Jhonston, Y. W. Bauer, J. Am. Chem. Soc., 73 (1951) 1119.
  27. J. M. Miller, H. B. Hamilton and J. D. Sullivan, "Testing of lithium titanate as an alternate blanket material", J. Nucl. Mater., 212-215 (1994) 877-880.
  28. A. Christensen, K. C. Conway et al., "High temperature heat content and entropies of aluminates and ferrites of lithium, sodium and lithium titanate", US Bur. Mines Report RI-5565 (1960).
  29. M. Kuche, "Material Data Base for the NET Test Blanket Design Studies", April 1989, KfK.
  30. G. W. Hollenberg, "Pellet Integrity and Swelling of Lithium Ceramics", in Fusion Reactor Materials Semi-annual Progress Report for Period Ending September 30, 1986, DOE/ER-0313/1 (June 1989) 373-380.
  31. M. Glugia, K. H. Simon and R. D. Penzhorn, J. Nucl. Mater., 155-157 (1988) 513.
  32. K. Munakata, M. Nishikawa and K. Yoneda, Fusion Technol., (1989) in press.
  33. H. Kudo, K. Okuno and S. Ohira, J. Nucl. Mater., 155-157 (1988) 524.
  34. S. Ohira, T. Hayashi, K. Okuno and H. KUBO, Fusion Eng. Des., 8&9 (1989) in press.
  35. O. D. Slagle, G. W. Hollenberg and D. L. Baldwin, "The FUBR-1B Irradiation Experiment - Tritium Release and Physical Stability of Solid Breeder Materials", J. Nucl. Mater., 179-181 (1991) 843.
  36. G. W. Hollenberg and D. L. Baldwin, "Fast Neutron Irradiation Results on Li2O, Li4SiO4, Li2ZrO3 and LiAlO2, " J. Nucl. Mater., 123 (1984) 896.
  37. O. D. Slagle and G. W. Hollenberg, Proc. 2nd Int. Specialist's Workshop on Modeling Tritium Behavior in Fusion Ceramic Blankets, (1989) 181-199.
  38. T. Kobayashi et al., "Japanese Contributions to IAEA INTOR Workshop, Phase Two A, Part 3", JAERI-M 87-219 (1988).
  39. M, Tetenbaum, A. K. Fischer, and C. E. Johnson, " An Investigation of the Solubility of LiOH in Solid Li2O", Fusion Technol., 7 (1985) 53.
  40. J. L. Ethridge, D. E. Baker, A. D. Miller, "Effects of Fast Neutron Irradiation on Thermal conductivity of Li2O and LiAlO2", J. Am. Ceram. Soc., 71(6) (1988) C-294.
  41. M. C. Billone, H. Attaya and J. P. Kopasz, "Modeling of Tritium Behavior in Li2O", Argonne national Laboratory, ANL/FPP/TM-260, August 1992.
  42. H. Kudo, K. Okuno, J. Nucl. Mater., 101 (1981) 38.
  43. H. Kudo, K. Okuno, J. Nucl. Mater., 133-134 (1985) 192.
  44. K. Okuno, H. Kudo, J. Nucl. Mater., 116 (1983) 82.
  45. H. Kudo, K. Okuno, J. Nucl. Mater., 155-157 (1988) 524.
  46. UCLA-ENG-88-64 (1987).
  47. M. Briec, J. J. Abassin, C. E. Johson, M. Masson, N. Roux and H. Watanabe, "The MOZART Experiment : In-Pile Tritium Extraction from Lithium Oxide Aluminate, Zirconate", Proc. 15th SOFT, Fusion Techn., (1988) 1105.
  48. D. L. Baldwin and G. W. Hollenberg, "Measurement of Tritium and Helium in Fast Neutron Irradiated Ceramics Using High Temperature Vacuum Extraction", J. Nucl. Mater., 141-143 (1986) 305.
  49. C. E. Johnson, K. R. Kummerer and E. Roth, J. Nucl. Mater., 155-157 (1988) 188.
  50. N.Roux, J.Avon, A.Floreancing, J.Mougin, B.Rasneur, S.Ravel, "Low-temperature Tritium Releasing Ceramics as Potential Materials for the ITER Breeding Blanket", Proc. 4th Int. Workshop on Ceramic Breeder Blanket Interactions, Oct.9-11 (1955), Kyoto, Japan.
  51. J. Mougin, B. Rasneur and N. Roux, "Tritium and helium release from Li2TiO3 Comparison with Li2ZrO3", Proc. 3rd Inter. Workshop on Ceramic Breeder Blanket Interactions, Los Angels (1994).
  52. J. Davis and A. Haasz, "Thermal diffusivity / conductivity of AECL Li2TiO3 ceramic", J. Nucl. Mater., 232 (1996) 65.
  53. P. Gierszewski et al., "Canadian ceramic breeder technology : recent results", Fusion Eng. & Design, 27 (1995) 297 (Proc. ISFNT-3, Los Angels, 1994)
  54. I. Barin and O. Knake, "Thermochemical properties of inorganic substances", Springer Verlag (1973) 425.
  55. "JANAF Thermochemical Tables", US Nat. Bur. Standards (1964).
  56. G. W. Hollenberg and D. L. Baldwin, et al., "Lithium oxide transport and lithium ceramic stability during high burn-up irradiation", Proceeding of the International Symposium, Fusion reactor blanket and fuel cycle technology, (1986) 90.
  57. J. P. Kopasz and C. E. Johnson, "Investigation of the interaction of H2O(g) with Li2ZrO3", Proc. 4th Inter. Workshop on Ceramic Breeder Blanket Interactions, Kyoto (1995) 224.
  58. M. Asano, Y. Kato, T. Harada and Y. Mizutani, "Vaporization and thermochemical properties of lithium containing complex oxides", Proc. 4th Inter. Workshop on Ceramic Breeder Blanket Interactions, Kyoto (1995) 259.
  59. M. Yamawaki, A. Suzuki, M. Yasumoto and K. Yamaguchi, "Investigations on the interactions D2O(g) and D2(g) with Li2TiO3 and other ceramic breeders by means of atmosphere controlled HT mass spectrometer", Proc. 5th Inter. Workshop on Ceramic Breeder Blanket Interactions, Rome (1996).
  60. H. Nakagawa, M. Asano and K. Kubo, "Mass spectrometric investigation of the vaporization of Li2TiO3(g)," J. Nucl. Mater., 110 (1982) 158.
  61. K. Tsuchiya, K. Watarumi, S. Saito et al., "Fabrication Development of ceramic tritium breeders by sol-gel method", Proc. 5th International Workshop on Ceramic Breeder Blanket Interactions, Rome (1996) 191.
  62. P. Gierzewski, "Review of Properties of Lithium Metatitanate", CFFTP G-9561, Oct., 1995.
  63. H. Hamilton, "The thermal cycling behavior of lithium titanate", J. Nucl. Mater., 219 (1995) 274.
  64. P. Finn, T. Kurasawa, S. Nasu, K. Noda and H. Watanabe, "Solid oxide compounds properties necessary for fusion applications", Proc. IEEE 9th Symp. On Eng. Problems of Fusion Research, Chicago, 11 (1981) 1200.
  65. P. Gierzewski, "Review of Properties of Lithium Metatitanate", CFFTP G-9703, Oct., 1997.
  66. K. Tsuchiya, H. Kawamura and T. Takeuchi, "Dissolving and recovering properties for reprocessing technology of lithium titanate", 4th International Symposium on Fusion Nuclear Technology, Kyoto (1997).
  67. J. P. Kopasz, J. M. Miller and C. E. Johoson, "Tritium release from lithium titanate, a low activation tritium breeding material", J. Nucl. Mater., 212 (1994) 927.
  68. G. P. Wyers and E. H. P. Gordfunke, "Phase Relation in the System Li2ZrO3", J. Nucl. Mater., 168 (1989) 24.
  69. "Semi-Annual Report of KfK/Euratom April-September 1989", KfK Report 4677, Nov. 1989.
  70. G. W. Hollenberg, D .L. Baldwin, J. Nucl. Mater., 133&134 (1985) 242.
  71. M. C. Billone and W. T. Grayhack, "Mechanical Models for Predicting Tritium Trasport in Lithium Ceramics", Advances in Ceramics, Vol. 25 : Fabrication and Properties of Lithium Ceramics (1989) American Ceramics Society, Inc. pp. 15-27.
  72. G. W. Hollenberg, D. E. Baker, HEDL-SA-2674-FP (1982).
  73. D. A. Moor, "A Compilation of Data and a Review of the properties of Lithium Monoxide and Lithium Zirconates Relevant to Their Use as Tritium Breeder Material in Fusion Reactors", NRL-R-2014 (S) to be published.
  74. A. Neubert and D. Guggi, J. Chem. Thermo., 10 (1978) 297-306.
  75. B. Rasneur, "Fabrication, Mechanical and Chemical Properties of LiAlO2 and Li2ZrO3 as Tritium Breeders for a Solid Blanket", presented at the 91st Annual Meeting of the American Ceramic Society, Indianapolis, April 1989.
  76. P. Kennedy, "The Preparation, Characterization and Properties of Lithium Oxide and Metazirconate Specimens Irradiated in HFR Petten in the 2nd and 3rd EXOTIC Experiments", 14th SOFT, Fusion Technology, (1986) 1013.
  77. W. Dienst, "Contribution of the Data Base for the International Fusion Materials Handbook : Mechanical Properties and Compatibility of Ceramic Breeding Materials", IMF-Notiz, 129 (1989).
  78. N. Roux, G. Hollenberg, C. Johnson, K. Noda and R. Verrall, "Summary of experimental results for ceramic breeder materials", Fusion Eng. Design, 27 (1995) 154-166.
  79. A. Terlain, D. Herpin, P. Perodeaud, T. Flament and J. Sanier, "Compatibility Problems with Beryllium in Ceramic Blankets", 15th SOFT, Fusion Technology, (1988) 1179.
  80. Y. Takahashi, 2nd Int. Symp. Fabrication and Properties of Li-Ceramics, Indianapolis, IN, May 3-5, (1982).
  81. B. Schultz, KfK Report, 4677 (1989) 57.
  82. A. Skokan, H. Wedemeyer, D. Vllath and F. Guenther, "Thermal Properties and Application of potential lithium silicate Breeder Materials", Fusion Technology, 2 (1986) 1255.
  83. G. W. Hollenberg, "Thermal Properties of Lithium Ceramics for Fusion Applications", 84th Annual Meeting of American Ceramic Society, Cincinnati, Ohio, May 3-5, (1982).
  84. H. R. Ihle, R. D. Penzhorn and P. Schuster, "The Thermochemistry of Lithium Silicates in View of Their Use as Breeder Materials", Fusion Eng. Design, 8 (1989) 393.
  85. O. Gotzmann, "Thermodynamics of Ceramic Breeder Materials for Fusion Reactors", J. Nucl. Mater., 167 (1989) 213.
  86. K. Bar, C. Y. Chu, J. P. Singh, K. C. Goretta, J. L. Routbort, M. C. Billone and R. B. Poeppel, "Mechanical Properties of Polycrystalline Lithium Ortho-silicate", Fusion Eng. Design, 8 (1989) 371.
  87. H. Zimmermann, "Mechanishe Eigenschaften von Lithiumsilikaten fur Fusion Reaktor Brutblankets", KfK 4528 (1989).
  88. P. Hofmann and W. Dienst, "Compatibility Interactions of Be with Li-Based Oxides and Stainless Steel", J. Nucl. Mater., 171 (1990) 203.
  89. M. Yamazaki, A. Suzuki, M. Yasumoto and K. Yamaguchi, Proc. 5th Int. Workshop on Ceramic Breeder Blanket Interactions, Rome, Italy, 1996.
  90. FINESSE, (1987).
  91. UKAEA, (1989).
  92. N. Roux, "Compilation of Properties Data for Li2TiO3", Proc. 5th Int. Workshop on Ceramic Breeder Blanket Interactions, Rome, Italy, Sept 23-25, 1996.
  93. K. Tsuchiya and H. Kawamura, "Characterization of TiO2-Doped Li2TiO3", Proc. 14th Topical Meeting on the Technology of Fusion energy, Utah, Oct. 15-19, 2000.
  94. T. Kobayashi, et al., JAERI-M, 87-219 (1988).
  95. Y. Ikeda, H. Ito, G. Matsumoto and H. Hayashi, "The Vaporization and Thermochemical Stability of Lithium Aluminates", J. Nucl. Mater., 97 (1981) 47-58.
  96. N. Roux, J. Mougin, B. Rasneur, E. Prpust, L. Giancarli, J. F. Salary, J. Nucl. Mater., 212-215 (1994) 862.

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