Patent Number: 039752330
Section: claims

1. A safety rod for a neutronic reactor comprising an elongated hollow tube, a first region approximately nine feet in length comprising a plurality of spaced layers of "masonite" disposed within the tube adjacent to one end thereof, and a layer of soft steel disposed within the tube between each pair of spaced layers of masonite, a second region adjacent to the first region comprising a sleeve disposed within the tube having a smaller outer diameter than the inner diameter of the tube forming a space between the sleeve and the tube, powdered boron disposed within said space, and a plurality of discs of polyethylene disposed within the sleeve, and a third region approximately eleven and one-half feet in length adjacent to the second region comprising a lead plug within the tube and discs of polyethylene adjacent to both sides of the plug. 2. A neutronic reactor comprising, in combination an active portion containing material fissionable by neutrons of thermal energy provided with a channel therein adapted to receive a neutron absorbing rod, a radiation shield surrounding the active portion of the reactor having an aperture aligned with said channel, said shield having an iron thermal shield approximately 10 inches thick surrounded by a laminated biological shield approximately 491/3 inches thick, said biological shield having alternate layers of "masonite" approximately 41/2 inches thick and iron approximately 33/4 inches thick, a neutron absorbing rod slidably disposed within the channel and aperture in the shield, said rod having an inner end portion approximately 9 feet in length containing layers of "masonite" approximately 131/2 inches long and layers of soft steel approximately 33/4 inches long, and said rod having an outer end portion approximately 111/2 feet long containing a lead cylinder approximately 6 inches in length and two abutting polyethylene discs, the disc between the lead cylinder and the outer end of the rod being approximately 8 inches in length, and the other disc being approximately 114 inches in length. 3. A neutronic reactor having an active portion provided with a channel therein adapted to receive a neutron absorbing rod, a radiation shield surrounding the active portion of the reactor and having an aperture aligned with said channel, and a neutronic absorbing rod slidably disposed within said channel characterized by the construction wherein the rod comprises an inner end portion at least equal in length to the thickness of the shield and normally positioned within said aperture, said inner end portion having a neutron capture cross section and a gamma ray absorption coefficient at least equal to those of the surrounding shield, a central portion having an axial portion containing material having a neutron slowing power of at least 0.1 and a peripheral portion containing material having a neutron capture cross section of at least 100 barns, and an outer end portion at least equal in length to the thickness of the shield and having a gamma ray absorption coefficient at least as great as that of the shield. 4. A neutronic reactor comprising the elements of claim 3 wherein the neutron absorbing material in the central portion of the neutron absorbing rod comprises boron, and the neutron slowing material comprises polyethylene.