Add to ORKGIn order to produce feedstock fuel powder for irradiation testing, the Idaho National Laboratory has produced a rotating electrode type atomizer to fabricate uranium-molybdenum alloy fuel. Operating with the appropriate parameters, this laboratory-scale atomizer produces fuel in the desired size range for the RERTR dispersion experiments. Analysis of the powder shows a homogenous, rapidly solidified microstructure with fine equiaxed grains. This powder has been used to produce irradiation experiments to further test adjusted matrix U-Mo dispersion fuel
A series of experiments was designed to assess the suitability of uranium-molybdenum alloys as high-...
Twelve different uranium alloys and compounds with uranium densities greater than 13.8 g/cc were fab...
Uranium metal particle dispersion plates have been proposed as targets for Molybdenum-99 (Mo-99) pro...
Second generation uranium molybdenum fuel has shown excellent in-reactor irradiation performance. Th...
Various proposed metallic nuclear fuel designs for fast reactors may require powder fabrication meth...
RERTR U-Mo dispersion fuel plates are being developed for application in research reactors throughou...
Results from postirradiation examinations and analyses of U-Mo/Al dispersion miniplates are presente...
The high density metastable gamma uranium molybdenum alloy (γ‐UMo) is being qualified as a nuclear f...
The need to provide more accurate property information on U-Mo fuel alloys to reactor operators, mod...
Since 2001, a series of five irradiation test campaigns for atomized U-Mo dispersion fuel rods, KOMO...
AbstractMolybdenum nanocrystalline powder particles using electric blasting circuit method after mol...
Uranium metal particle dispersion plates have been proposed as targets for Molybdenum-99 (Mo-99) pro...
This is a preprint of a paper intended for publication in a journal or proceedings. Since changes ma...
Metallic uranium alloys are candidate materials for use as the fuel phase in very-high-density LEU d...
A variety of phases have the potential to develop in the irradiated fuels for the reduced enrichment...
A series of experiments was designed to assess the suitability of uranium-molybdenum alloys as high-...
Twelve different uranium alloys and compounds with uranium densities greater than 13.8 g/cc were fab...
Uranium metal particle dispersion plates have been proposed as targets for Molybdenum-99 (Mo-99) pro...
Second generation uranium molybdenum fuel has shown excellent in-reactor irradiation performance. Th...
Various proposed metallic nuclear fuel designs for fast reactors may require powder fabrication meth...
RERTR U-Mo dispersion fuel plates are being developed for application in research reactors throughou...
Results from postirradiation examinations and analyses of U-Mo/Al dispersion miniplates are presente...
The high density metastable gamma uranium molybdenum alloy (γ‐UMo) is being qualified as a nuclear f...
The need to provide more accurate property information on U-Mo fuel alloys to reactor operators, mod...
Since 2001, a series of five irradiation test campaigns for atomized U-Mo dispersion fuel rods, KOMO...
AbstractMolybdenum nanocrystalline powder particles using electric blasting circuit method after mol...
Uranium metal particle dispersion plates have been proposed as targets for Molybdenum-99 (Mo-99) pro...
This is a preprint of a paper intended for publication in a journal or proceedings. Since changes ma...
Metallic uranium alloys are candidate materials for use as the fuel phase in very-high-density LEU d...
A variety of phases have the potential to develop in the irradiated fuels for the reduced enrichment...
A series of experiments was designed to assess the suitability of uranium-molybdenum alloys as high-...
Twelve different uranium alloys and compounds with uranium densities greater than 13.8 g/cc were fab...
Uranium metal particle dispersion plates have been proposed as targets for Molybdenum-99 (Mo-99) pro...