Add to ORKGMetallic nuclear fuels are being looked at as part of the Global Nuclear Energy Program for transmuting longlive transuranic actinide isotopes contained in spent nuclear fuel into shorter-lived fission products. In order to optimize the performance of these fuels, the concept of using liners to eliminate the fuel/cladding chemical interactions that can occur during irradiation of a fuel element has been investigated. The potential liner materials Zr and V have been tested using solid-solid diffusion couples, consisting of liner materials butted against fuel alloys and against cladding materials. The couples were annealed at the relatively high temperature of 700°C. This temperature would be the absolute maximum temperature present at the fu...
U-Mo metallic fuels with Al alloys as the matrix/cladding are being developed as low enriched uraniu...
A down-selection process has been applied to the U-Mo fuel alloy based monolithic plate fuel design,...
U-Mo alloys are being developed as low enrichment monolithic fuel under the Reduced Enrichment for R...
Advanced cladding materials are being considered for high-temperature applications in Generation IV ...
Metallic nuclear fuels, as potential candidates in advanced reactors development, have been extensiv...
One of the challenges facing the development of ultra-high burnup fast reactors, such as the Travell...
Next generation fast reactor designs utilizing metallic fuel are being developed as an alternative f...
Metallic fuels are proposed for use in advanced sodium cooled fast reactors. The experience basis fo...
In advanced nuclear systems, the chemical compatibility of the fuel and cladding is imperative for s...
Inner-side coatings have been proposed as a complementary solution within the accident tolerant fuel...
This paper describes materials made of zirconium-based alloys used for nuclear fuel cladding fabrica...
U-Mo metallic fuels with Al alloys as the matrix/cladding are being developed as low enriched uraniu...
High-performance research reactors require fuel that operates at high specific power to high fission...
peer-reviewedWe have made observations of noble metal phase fission-product agglomerates and gaseous...
Uranium based binary and ternary alloy fuel is a possible candidate for advanced fast spectrum react...
U-Mo metallic fuels with Al alloys as the matrix/cladding are being developed as low enriched uraniu...
A down-selection process has been applied to the U-Mo fuel alloy based monolithic plate fuel design,...
U-Mo alloys are being developed as low enrichment monolithic fuel under the Reduced Enrichment for R...
Advanced cladding materials are being considered for high-temperature applications in Generation IV ...
Metallic nuclear fuels, as potential candidates in advanced reactors development, have been extensiv...
One of the challenges facing the development of ultra-high burnup fast reactors, such as the Travell...
Next generation fast reactor designs utilizing metallic fuel are being developed as an alternative f...
Metallic fuels are proposed for use in advanced sodium cooled fast reactors. The experience basis fo...
In advanced nuclear systems, the chemical compatibility of the fuel and cladding is imperative for s...
Inner-side coatings have been proposed as a complementary solution within the accident tolerant fuel...
This paper describes materials made of zirconium-based alloys used for nuclear fuel cladding fabrica...
U-Mo metallic fuels with Al alloys as the matrix/cladding are being developed as low enriched uraniu...
High-performance research reactors require fuel that operates at high specific power to high fission...
peer-reviewedWe have made observations of noble metal phase fission-product agglomerates and gaseous...
Uranium based binary and ternary alloy fuel is a possible candidate for advanced fast spectrum react...
U-Mo metallic fuels with Al alloys as the matrix/cladding are being developed as low enriched uraniu...
A down-selection process has been applied to the U-Mo fuel alloy based monolithic plate fuel design,...
U-Mo alloys are being developed as low enrichment monolithic fuel under the Reduced Enrichment for R...