Aqueous corrosion of aluminum-plutonium alloys
C. H. Bloomster, Y. B. Katayama, Hanford Atomic Products Operation. Reactor and Fuels Research and Development Operation, Hanford Works, U.S. Atomic Energy Commission, United States. Energy Research and Development Administration, United States. National Bureau of Standards. Fracture and Deformation Division, United States. Dept. of Energy. Office of Fusion Energy, United States. National Bureau of Standards
U.S. Atomic Energy Commission, 1960 - Aluminum alloys - 20 pages
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100X FIGURE absorption cross section AEC Scientific Representative AEC-GE RICHLAND Al-Pu alloys Al-Si-Pu alloys Alloy 5 Al-3 Alloy 9 alloy were cast ALUMINUM-PLUTONIUM ALLOYS aqueous corrosion resistance C. H. Bloomster Carbide Nuclear Company cast into unheated casting temperature Center of Partially coarse and agglomerated Corporation CORROSION OF ALUMINUM-PLUTONIUM corrosion rate Corrosion Test 100X duPont Company effect on corrosion Electric Company Extruded Rod Fabrication Development Stages Failed Corrosion Test FIGURE 14 fuel elements graphite high temperature aqueous I. D. Thomas initial tests intermetallic melt metal nickel content Office of Technical Partially Corroded Rod Partially Corroded Sample Passed Corrosion Test Phase Particles Plutonium Polarized Light 100X PRTR spike charge Pu Al-1 w/o Pu Al-3 Reactor Results During Fabrication Rod of Partially second phase second-phase particles Si-2 w/o Pu static autoclave system Static Deionized Water temperature aqueous corrosion unheated molds Union Carbide Nuclear uranium w/o Pu Al-1 w/o Pu Alloy Y. B. Katayama zirconium