Add to ORKGBoron carbide pellets were fabricated with variations in material parameters. These pellets were irradiated in the Experimental Breeder Reactor-II (EBR-II) to determine the effect of these variations on the performance. Helium release from the material and swelling of the pellets are the primary measures of performance. It was determined that material with a smaller grain size released more helium and swelled less. The pellets with boron-to-carbon ratios greater than 4 to 1 did not perform well. Iron additions improved the performance of the material while density variations had little effect
International audienceAlready used as neutron absorber in the current French nuclear reactors, boron...
>The basic fuel element consisted of a uniform dispersion of fuel in a 1 1/2 inch diameter graphite ...
When boron carbide is used as a neutron absorber in nuclear power plants, large quantities of helium...
Boron carbide pellets were irradiated in a spectrum-hardened ETR flux at temperatures of 1220 to 162...
Elemental boron, boron carbide, and zirconium diboride were irradiated at reactor ambient temperatur...
International audienceBoron carbide, B 4 C, is widely used as a neutron absorber in nuclear reactors...
International audienceBoron carbide is widely used as a neutron absorber in most nuclear reactors, i...
The effect of boron on the optimum burnup was investigated at different assemblies for enriched fuel...
B4C boron carbide is a ceramic used as a neutron absorber in the control rods of nuclear reactors. T...
The increasing importance and areas of application for superhard nanomaterials has resulted in a gre...
Helium produced in materials by (n,..cap alpha..) transmutation reactions during neutron irradiation...
International audienceAlready used as neutron absorber in the current French nuclear reactors, boron...
>The basic fuel element consisted of a uniform dispersion of fuel in a 1 1/2 inch diameter graphite ...
When boron carbide is used as a neutron absorber in nuclear power plants, large quantities of helium...
Boron carbide pellets were irradiated in a spectrum-hardened ETR flux at temperatures of 1220 to 162...
Elemental boron, boron carbide, and zirconium diboride were irradiated at reactor ambient temperatur...
International audienceBoron carbide, B 4 C, is widely used as a neutron absorber in nuclear reactors...
International audienceBoron carbide is widely used as a neutron absorber in most nuclear reactors, i...
The effect of boron on the optimum burnup was investigated at different assemblies for enriched fuel...
B4C boron carbide is a ceramic used as a neutron absorber in the control rods of nuclear reactors. T...
The increasing importance and areas of application for superhard nanomaterials has resulted in a gre...
Helium produced in materials by (n,..cap alpha..) transmutation reactions during neutron irradiation...
International audienceAlready used as neutron absorber in the current French nuclear reactors, boron...
>The basic fuel element consisted of a uniform dispersion of fuel in a 1 1/2 inch diameter graphite ...
When boron carbide is used as a neutron absorber in nuclear power plants, large quantities of helium...