References
- J. NOVAK, I. J. HASTINGS, E. MIZZAN and R. CHENIER, “Postirradiation Behavior of UO2 Fuel I: Elements at 220 to 250°C in Air,” Nucl. Technol., 63, 254 (1983).
- J. NOVAK and I. J. HASTINGS, “Post-Irradiation Behavior of Defected UO2 Fuel Elements in Air at 220-250°C,” Proc. USNRC Workshop Spent Fuel/Cladding Reaction During Dry Storage, Gaithersburg, Maryland, August 17-18, 1983, NUREG/CP-0049, p.l and Appendix Al, U.S. Nuclear Regulatory Commission (1983); see also AECL-8182, Atomic Energy of Canada Limited (1983).
- I. J. HASTINGS et al., “Postirradiation Behavior of Naturally and Artificially Defected UO2 Fuel Elements at 250°C in Air,” Nucl. Technol., 68, 418 (1985).
- I. J. HASTINGS and J. NOVAK, “Behaviour in Air at 175-250°C of UO2 Fuel Fragments Extracted from Irradiated Elements,” Proc. USNRC Workshop Spent Fuel/Cladding Reaction During Dry Storage, Gaithersburg, Maryland, August 17-18, 1983, NUREG/CP-0049, p. 26 and Appendix A2, U.S. Nuclear Regulatory Commission (1983); see also AECL-8181, Atomic Energy of Canada Limited (1983).
- I. J. HASTINGS, E. MIZZAN, A. M. ROSS, J. KELM, R. CHENIER, D. H. ROSE and J. NOVAK, “Postirradiation Behavior of UO2 Fuel II: Fragments at 175 to 275°C in Air,” Nucl. Technol., 68, 40 (1985).
- R. A. LORENZ, J. L. COLLINS and A. P. MALINAUSKAS, “Fission Product Source Terms for the LWR Loss-of-Coo-Iant Accident: Summary Report,” NUREG/CR-0091, U.S. Nuclear Regulatory Commission (1978).
- R. A. LORENZ, J. L. COLLINS, A. P. MALINAUSKAS, O. L. KIRKLAND and R. L. TOWNS, “Fission Product Release from Highly Irradiated LWR Fuel,” NUREG/CR-0722, U.S. Nuclear Regulatory Commission (1980).
- D. McCRACKEN, Chalk River Nuclear Laboratories, unpublished results.
- “Uranium and Oxygen to Uranium Atomic Ratio by the Ignition (Gravimetric) Impurity Correction Method,” Annual Book of ASTM Standards, ANSI/ASTM C696-80, Part 45, American Society for Testing and Materials (1980).