Correlation of surface characteristics with the sintering behavior of uranium dioxide powders
D. R. Stenquist, B. Mastel, R. J. Anicetti, 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
U.S. Atomic Energy Commission, 1957 - Electron microscopy - 20 pages
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2.4 microns 52 microns area and average average diameter determinations average particle diameters B. E. T. nitrogen gas Carbide Nuclear Company Ceramic grade controlled oxidation-reduction process Copy Number densities of powder depleted and PWR diameter and surface DIAMETER FOR VARIOUS diameters were determined distilled water ELECTRON MICROGRAPH Figure 9 Fisher Sub-Sieve Sizer gas adsorption method Grade UO Hanford depleted UO large particle largest surface area leaching bath low sintered densities Mallinckrodt PWR grade MICROGRAPH OF CERAMIC MICROGRAPH OF PWR microns FIGURE microns UNCLASSIFIED Missouri National Lead Company nitrogen gas adsorption Oak Ridge OOOx oxidation-reduction treatment particle size contribute pictured in Figure Powder agglomerates powder pictured powders treated produced by Mallinckrodt's read Figure SINTERING BEHAVIOR Smooth surface texture surface area determinations surface area value surface characteristics texture and large texture is characteristic U. S. Geological Survey U02 Powder Union Carbide Nuclear University of California UOzPOWDER URANIUM V. R. Cooper VARIOUS UOz POWDERS