Add to ORKGAn unfueled converter containing a chloride-fluoride duplex tungsten emitter of 4.78 eV vacuum work function was tested for 46,647 hours at an emitter temperature of 1973 K and an electrode power output of about 8 watts/sq cm. The test demonstrated the superior and stable performance of the (110) oriented tungsten emitter at high temperatures. Three 90 UC-10 ZrC(C/U = 1.04, tungsten additive = 4 wt %) fueled converters were fabricated and tested at an emitter temperature of 1873 K. Converter containing chloride-arc-cast duplex tungsten cladding showed temperature thermionic performance and slower rate of performance drop than converter containing chloride-fluoride duplex tungsten cladding. This is believed to be due to the superior fuel com...
Computer processed performance data for thermionic converter with etched rhenium emitter and niobium...
A thermionic converter module simulating a configuration for an out-of-core thermionic nuclear react...
Work performed on this contract was primarily for the evaluation of selected electrode materials for...
Thermionic converter with fluorine vapor deposited tungsten emitter etched to expose crystal plane
Thermionic coverter with chloride vapor deposited tungsten emitter and nickel collecto
Performance of chemically vapor deposited tungsten emitters in thermionic converter
Design and evaluation of cylindrical out-of-pile thermionic converter test vehicle to determine perf...
The objective is to improve thermionic converter performance by means of reduced interelectrode loss...
Uranium carbide fueled, thermionic emitter configurations were encapsulated and irradiated. One caps...
Computer acquired performance data from physically vapor deposited tungsten-niobium thermoinic conve...
This topical report represents one of a series of reports "Task III: Investigation of the Effect of ...
Comparison of thermionic tungsten /110/ converter performances with niobium collectors and nickel co...
Outputs are presented for some cesium diodes having primarily emitters of highly oriented polycrysta...
Performance characteristics of parallel plane, variable spaced thermionic converter with tungsten em...
Thermionic converter operation with 112 to 114 oriented tungsten emitter and niobium collector with ...
Computer processed performance data for thermionic converter with etched rhenium emitter and niobium...
A thermionic converter module simulating a configuration for an out-of-core thermionic nuclear react...
Work performed on this contract was primarily for the evaluation of selected electrode materials for...
Thermionic converter with fluorine vapor deposited tungsten emitter etched to expose crystal plane
Thermionic coverter with chloride vapor deposited tungsten emitter and nickel collecto
Performance of chemically vapor deposited tungsten emitters in thermionic converter
Design and evaluation of cylindrical out-of-pile thermionic converter test vehicle to determine perf...
The objective is to improve thermionic converter performance by means of reduced interelectrode loss...
Uranium carbide fueled, thermionic emitter configurations were encapsulated and irradiated. One caps...
Computer acquired performance data from physically vapor deposited tungsten-niobium thermoinic conve...
This topical report represents one of a series of reports "Task III: Investigation of the Effect of ...
Comparison of thermionic tungsten /110/ converter performances with niobium collectors and nickel co...
Outputs are presented for some cesium diodes having primarily emitters of highly oriented polycrysta...
Performance characteristics of parallel plane, variable spaced thermionic converter with tungsten em...
Thermionic converter operation with 112 to 114 oriented tungsten emitter and niobium collector with ...
Computer processed performance data for thermionic converter with etched rhenium emitter and niobium...
A thermionic converter module simulating a configuration for an out-of-core thermionic nuclear react...
Work performed on this contract was primarily for the evaluation of selected electrode materials for...