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Nuclear Technology Volume 42, 1979 - Issue 2
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Technical Paper

The Effects of Stoichiometry on Cladding Attack in UO2-PuO2

L. A. LawrenceHanford Engineering Development Laboratory, P.O. Box 1970, Richland, Washington 99352
,
D. C. HataHanford Engineering Development Laboratory, P.O. Box 1970, Richland, Washington 99352
&
J. W. WeberHanford Engineering Development Laboratory, P.O. Box 1970, Richland, Washington 99352
Pages 195-206 | Published online: 10 May 2017

References

  • HEDL Materials Department, Fuels Subdivision, “HEDL Steady-State Irradiation Testing Program—Status Report-Through February 1975,” HEDL-TME 75-48, Hanford Engineering Development Laboratory (1975).
  • “Summary and Recommendations,” Proc. IAEA Specialists’ Mtg. Fuel-Cladding Interaction, Tokyo, Japan, February 21–25, 1977, International Atomic Energy Agency, Vienna (1977).
  • C. N. WILSON, R. L. GIBBY, L. A. LAWRENCE, and E. T. WEBER, “In-Reactor Behavior of Materials Used to Control Fuel-Cladding Chemical Interaction,” HEDL-SA-1268, Hanford Engineering Development Laboratory (1977).
  • W. E. ROAKE et al., “Implications and Control of Fuel-Cladding Chemical Interaction for LMFBR Fuel Pin Designs,” Proc. IAEA Specialists’ Mtg. Fuel-Cladding Interaction, Tokyo, Japan, February 21–25, 1977, International Atomic Energy Agency, Vienna (1977).
  • J. W. WEBER and E. D. JENSEN, “Effect of O/M on Irradiated Mixed-Oxide Stainless-Steel Cladding Compatibility,” Trans. Am. Nucl. Soc., 14, 175 (1971).
  • J. W. WEBER and D. S. DUTT, “Analysis of Fuel-Cladding Chemical Interaction in Mixed-Oxide Fuel Pins,” Trans. Am. Nucl. Soc., 23, 155 (1976).
  • W. E. ROAKE et al., “Investigations of Fuel-Cladding Chemical Interaction in Irradiated LMFBR Type Oxide Fuel Pins,” Proc. IAEA Specialists’ Mtg. Fuel-Cladding Interaction, Tokyo, Japan, February 21–25, 1977, International Atomic Energy Agency, Vienna (1977).
  • R. PASCARD, “General Consideration on the Oxide Fuel-Cladding Interactions,” and M. CONTE and J. P. MARCON, “Chemical Interaction Between the Oxide and the Clad in Phenix Fuel at Burnup up to 60,000 MWd/T,” Proc. IAEA Specialists’ Mtg. Fuel-Cladding Interaction, Tokyo, Japan, February 21–25, 1977, International Atomic Energy Agency, Vienna (1977).
  • W. BATEY and K. Q. BAGLEY, “Fuel/Clad Reaction in Irradiated Oxide Fuel Pins,” J. Br. Nucl. Energy Soc., 13, 1, 49 (1974).
  • D. HAAS et al., “Results of the Postirradiation Examinations of the Rapsodie-1 Experiment Fuel Pins,” Nucl. Technol., 34, 75 (1977).
  • M. G. ADAMSON, “Out-of-Pile Experiments Performed in the U.S. Fuel-Cladding Chemical Interaction (FCCI) Program,” Proc. IAEA Specialists’ Mtg. Fuel-Cladding Interaction, Tokyo, Japan, February 21–25, 1977, International Atomic Energy Agency, Vienna (1977).
  • G. H. GOLDEN et al., “Correlation and Interpretation of Data Relative to EBR-II Power Level,” Proc. ANS Topl. Mtg. Irradiation Experiments in Fast Reactors, Jackson Lake Lodge, Wyoming, September 10–12, 1973.
  • W. W. MARR, “COBRA-3M, A Digital Computer Code for Analyzing Thermal-Hydraulic Behavior in Pin Bundles,” ANL-8131, Argonne National Laboratory (1975).
  • D. S. DUTT and R. B. BAKER, “A Correlated Code for the Prediction of Liquid Metal Fast Breeder Reactor (LMFBR) Fuel Thermal Performance,” HEDL-TME 74-55, Hanford Engineering Development Laboratory (1975).
  • J. W. WEBER, R. L. GIBBY, D. C. HATA, and E. T. WEBER, “Evolution of Cladding Attack in LMFBR-Type Oxide Fuel Pins,” Trans. Am. Nucl. Soc., 23, 154 (1976).
  • M. G. ADAMSON, “Mechanisms of Fuel-Cladding Chemical Interaction: U.S. Interpretation,” Proc. IAEA Specialists’ Mtg. Fuel-Cladding Interaction, Tokyo, Japan, February 21–25, 1977, International Atomic Energy Agency, Vienna (1977).
  • C. E. JOHNSON et al., “Effects of Oxygen Concentration on Properties of Fast Reactor Mixed-Oxide Fuel,” Reactor Technol., 15, 4, 303 (1972).
  • R. W. OHSE and M. SCHLECHTER, “The Role of Cesium in Chemical Interaction of Austenitic Stainless Steels with Uranium Plutonium Oxide Fuels,” Proc. IAEA Panel Behaviour and Chemical State of Irradiated Ceramic Fuels, International Atomic Energy Agency, Vienna (Aug. 1974).
  • M. H. BRADBURY, S. PICKERING, and W. H. WITLOW, “Some Proposed Mechanisms for Internal Cladding Corrosion,” Proc. IAEA Specialists ’Mtg. Fuel-Cladding Interaction, Tokyo, Japan, February 21–25, 1977, International Atomic Energy Agency, Vienna (1977).
  • D. C. FEE, I. JOHNSON, and C. E. JOHNSON, “Chemical Interaction Between Fuel and Cladding in Stainless Steel Clad Fast Reactor Fuels,” ANL-75-53, Argonne National Laboratory (1975).
  • M. G. ADAMSON et al., “Prediction of Fuel-Cladding Chemical Interaction in Irradiated Mixed-Oxide Fuel Rods,” GEAP-14075, General Electric Company (1976).
  • O. GOTZMANN, P. HOFMANN, and F. THUMMLER, “Attack upon the Cladding of Oxide Fuel Pins by Fuel and Fission Products,” J. Nucl. Mater., 52, 33 (1974).

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