Add to ORKGLithium hydride is recommended for neutron attenuation and depleted uranium is recommended for gamma ray attenuation. For minimum shield weights these materials must be arranged in alternate layers to attenuate the secondary gamma rays efficiently. In the regions of the shield near the reactor, where excessive fissioning occurs in the uranium, a tungsten alloy is used instead. Alloys of uranium such as either the U-0.5Ti or U-8Mo are available to accommodate structural requirements. The zone-cooled casting process is recommended for lithium hydride fabrication. Internal honeycomb reinforcement to control cracks in the lithium hydride is recommended
The weights and thicknesses of two-layer W-- LiH shadow shields were calculated for SNAP-2, -8, and ...
Size and shield weight requirements calculated for fast-spectrum, liquid-metal cooled nuclear reacto...
Transport study of neutron and photon attenuation through lithium hydride and tungsten sphere
Tungsten and depleted uranium in mimimum weight, layered shield comparisons for space power reacto
The Affordable Fission Surface Power System (AFSPS) is a proposed power source for an outpost capabl...
The roadmap for space exploration foresees longer journeys and further excursions outside low-Earth ...
Radiation exposure to crew, electronics, and non-metallic materials is one of many concerns with lon...
The harmful effects of space radiation pose a serious health risk to astronauts participating in fut...
At the time of Prometheus program restructuring, shield material and design screening efforts had pr...
The reduction of dose onboard spacecraft and aircraft by appropriate shielding measures plays an ess...
Missions which use nuclear reactor power systems require radiation shielding of payload and/or crew ...
Optimization calculations to determine minimum 4 pi spherical-shell weights were performed at 200-, ...
The high density metastable gamma uranium molybdenum alloy (γ‐UMo) is being qualified as a nuclear f...
Measurements of MeV neutron were made at the surface of a lithium hydride and depleted uranium shiel...
Criticality calculations for small, cylindrical, lithium cooled reactors for space power system
The weights and thicknesses of two-layer W-- LiH shadow shields were calculated for SNAP-2, -8, and ...
Size and shield weight requirements calculated for fast-spectrum, liquid-metal cooled nuclear reacto...
Transport study of neutron and photon attenuation through lithium hydride and tungsten sphere
Tungsten and depleted uranium in mimimum weight, layered shield comparisons for space power reacto
The Affordable Fission Surface Power System (AFSPS) is a proposed power source for an outpost capabl...
The roadmap for space exploration foresees longer journeys and further excursions outside low-Earth ...
Radiation exposure to crew, electronics, and non-metallic materials is one of many concerns with lon...
The harmful effects of space radiation pose a serious health risk to astronauts participating in fut...
At the time of Prometheus program restructuring, shield material and design screening efforts had pr...
The reduction of dose onboard spacecraft and aircraft by appropriate shielding measures plays an ess...
Missions which use nuclear reactor power systems require radiation shielding of payload and/or crew ...
Optimization calculations to determine minimum 4 pi spherical-shell weights were performed at 200-, ...
The high density metastable gamma uranium molybdenum alloy (γ‐UMo) is being qualified as a nuclear f...
Measurements of MeV neutron were made at the surface of a lithium hydride and depleted uranium shiel...
Criticality calculations for small, cylindrical, lithium cooled reactors for space power system
The weights and thicknesses of two-layer W-- LiH shadow shields were calculated for SNAP-2, -8, and ...
Size and shield weight requirements calculated for fast-spectrum, liquid-metal cooled nuclear reacto...
Transport study of neutron and photon attenuation through lithium hydride and tungsten sphere