Patent Number: 047598964
Section: claims

1. In a coolant moderated nuclear reactor including a nuclear core positioned within a pressure vessel, said nuclear core comprising a plurality of fuel assemblies extending to the periphery thereof, said pressure vessel having at least one axial or circumferential weld thereon, a method for reducing the value of the neutron flux to which said welds are exposed comprising the steps of determining the areas of the core periphery causing each of said welds to be exposed to high neutron flux levels  determining the axial and circumferential locations of the core causing each of said welds to be exposed to high neutron flux levels  determining the amount of moderating displacer material taken from the group consisting of boron carbide, cadmium, indium, silver, or hafnium needed to reduce the amount of the high neutron fluxes to which said welds are exposed to acceptable levels at each of the core areas and axial locations  positioning said displacer material in a parallel arrangement within said fuel assemblies at the core periphery substantially axially and circumferentially adjacent to said welds exposed to high neutron flux levels. 2. In a coolant moderated nuclear reactor including a nuclear core positioned within a pressure vessel, said nuclear core comprising a plurality of fuel assemblies extending to the periphery thereof, said pressure vessel having at least one axial or circumferential weld thereon, means for reducing the amount of neutron flux to which said at least one axial or circumferential weld is exposed, said neutron flux reducing means being positioned within the periphery of said nuclear core and interspersed within the fuel assemblies at the core periphery substantially axially and circumferentially adjacent to one or more of said at least one axial or circumferential weld, respectively, said flux reducing means comprising a plurality of parallel arranged moderator displacer rods which are made from a neutron absorber material taken from the group consisting of boron carbide, cadmium-indium-silver, or hafnium. 3. The apparatus of claim 2, wherein said displacer and absorber rods are attached to a common hub.