Scientific Basis for Nuclear Waste Management XVIII: Symposium Held October 23-27, 1994, Kyoto, Japan, Part 2Takashi Murakami, Rodney C. Ewing |
Contents
PREFACE xix | 759 |
ZIRCONOLITERICH CERAMICS FOR ACTINIDE WASTES | 767 |
SYNROC FOR IMMOBILISING EXCESS WEAPONS PLUTONIUM | 775 |
Copyright | |
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1995 Materials Research Acta actinides adsorption alkali alteration analysis anatase aqueous behavior bentonite biotite Boom clay Ca2+ caesium calcite calculated carbonate cations cement chemical clay coefficient composition concentration concrete constant crystal crystalline decrease desorption diffraction diffusion dissolution distribution effluent equilibrium exchange experimental Figure fraction fracture geological goethite granite groundwater humic acid hydrogen illite increase ions Japan kaolinite layer leach rate leachant Materials Research Society matrix measured metal migration ml/g mortar NaCl neptunium Np(V Nuclear Waste Management nuclide obtained oxide parameters perovskite phase plutonium pore porosity precipitation Proc pyrochlore radioactive waste radionuclides ratio reaction reactor reducing conditions repository rock saléeite samples saturation shown slag smectite soil solid solubility solution sorbed sorption sorption experiments species specimens surface complexation Symp Synroc Table technetium temperature TiO2 tuff uraninite uranium waste form X-ray zirconolite zone