Add to ORKGProduction engineering and compatibility tests of Ta-8W-2Hf clad UN nuclear fuel element for use in lithium cooled space power unit reactor
The US National Energy Policy of 2001 advocated the development of advanced fuel and fuel cycle tech...
A two-dimensional, transient, heat-transfer analysis was made to determine the temperature response ...
Metallographic and ductility effects of lithium on tungsten-lined titanium alloy clad uranium mononi...
Space power unit fast reactor design with ceramic UN fuel elements, lithium coolant, and titanium al...
The results of a materials technology program for a long-life (50,000 hr), high-temperature (950 C c...
Materials for a lithium-cooled space power reactor concept must be chemically compatible for up to 5...
Criticality calculations for small, cylindrical, lithium cooled reactors for space power system
Design and experiments with compact fast spectrum reactor for generating electric power in spac
Size and shield weight requirements calculated for fast-spectrum, liquid-metal cooled nuclear reacto...
Five full size and eight reduced length fuel pins were fabricated for irradiation testing to evaluat...
Properties of high temperature materials for nuclear rocket reactor application - reactor concepts f...
An exploratory out-of-reactor investigation was made of the effects of short-time temperature excurs...
Neutronic design calculations for lithium 7 cooled nuclear reactor for space application
About 200 refractory metal clad ceramic fuel pins have been irradiated in thermal reactors under the...
Estimating fuel loading requirements for power tailored fast spectrum reactor with molybdenum reflec...
The US National Energy Policy of 2001 advocated the development of advanced fuel and fuel cycle tech...
A two-dimensional, transient, heat-transfer analysis was made to determine the temperature response ...
Metallographic and ductility effects of lithium on tungsten-lined titanium alloy clad uranium mononi...
Space power unit fast reactor design with ceramic UN fuel elements, lithium coolant, and titanium al...
The results of a materials technology program for a long-life (50,000 hr), high-temperature (950 C c...
Materials for a lithium-cooled space power reactor concept must be chemically compatible for up to 5...
Criticality calculations for small, cylindrical, lithium cooled reactors for space power system
Design and experiments with compact fast spectrum reactor for generating electric power in spac
Size and shield weight requirements calculated for fast-spectrum, liquid-metal cooled nuclear reacto...
Five full size and eight reduced length fuel pins were fabricated for irradiation testing to evaluat...
Properties of high temperature materials for nuclear rocket reactor application - reactor concepts f...
An exploratory out-of-reactor investigation was made of the effects of short-time temperature excurs...
Neutronic design calculations for lithium 7 cooled nuclear reactor for space application
About 200 refractory metal clad ceramic fuel pins have been irradiated in thermal reactors under the...
Estimating fuel loading requirements for power tailored fast spectrum reactor with molybdenum reflec...
The US National Energy Policy of 2001 advocated the development of advanced fuel and fuel cycle tech...
A two-dimensional, transient, heat-transfer analysis was made to determine the temperature response ...
Metallographic and ductility effects of lithium on tungsten-lined titanium alloy clad uranium mononi...