Topics
ZrChemical substance
noble metalCompany
EDS analysis was performed on irradiated MA-bearing metal fuel samples. Fuel alloy is segregated into a few phases of different Zr peak intensity. RE-rich precipitates include Zr, Y, Mo, MAs and/or noble metal elements. Single Zr phase is formed in the periphery of the fuel.JRC.E.2-Safety of Irradiated Nuclear Material
The METAPHIX project is a collaboration between CRIEPI and JRCITU investigating safety and performan...
An irradiation experiment on uranium–plutonium–zirconium (U–Pu–Zr) alloys containing 5 wt% or less m...
Understanding the microstructural and phase changes occurring during irradiation and their impact on...
Closed nuclear fuel cycles, based on separation from spent fuel and subsequent recycling of Pu, U as...
Fast reactor metal fuels containing minor actinides (MA) Np, Am, Cm were irradiated in the fast reac...
The METAPHIX programme is a collaboration between the Central Research Institute of Electric Power I...
Minor actinide (MA)-bearing metal fuels were irradiated in the fast reactor Phénix to understand the...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
The METAPHIX project is a collaboration between CRIEPI and JRC-ITU investigating safety and performa...
The METAPHIX programme is a collaboration between the Central Research Institute of Electric Power I...
AbstractThe METAPHIX programme is a collaboration between the Central Research Institute of Electric...
Fast reactor metal fuels of U-Pu-Zr alloy containing minor actinides (MAs) Np, Am and Cm and rare-ea...
Advanced nuclear reactors and closed nuclear fuel cycles are important option to achieve sustainable...
A worldwide objective in nuclear energy industry is the reduction of long-lived radio toxicity and h...
The METAPHIX project is a collaboration between CRIEPI and JRCITU investigating safety and performan...
An irradiation experiment on uranium–plutonium–zirconium (U–Pu–Zr) alloys containing 5 wt% or less m...
Understanding the microstructural and phase changes occurring during irradiation and their impact on...
Closed nuclear fuel cycles, based on separation from spent fuel and subsequent recycling of Pu, U as...
Fast reactor metal fuels containing minor actinides (MA) Np, Am, Cm were irradiated in the fast reac...
The METAPHIX programme is a collaboration between the Central Research Institute of Electric Power I...
Minor actinide (MA)-bearing metal fuels were irradiated in the fast reactor Phénix to understand the...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
The METAPHIX project is a collaboration between CRIEPI and JRC-ITU investigating safety and performa...
The METAPHIX programme is a collaboration between the Central Research Institute of Electric Power I...
AbstractThe METAPHIX programme is a collaboration between the Central Research Institute of Electric...
Fast reactor metal fuels of U-Pu-Zr alloy containing minor actinides (MAs) Np, Am and Cm and rare-ea...
Advanced nuclear reactors and closed nuclear fuel cycles are important option to achieve sustainable...
A worldwide objective in nuclear energy industry is the reduction of long-lived radio toxicity and h...
The METAPHIX project is a collaboration between CRIEPI and JRCITU investigating safety and performan...
An irradiation experiment on uranium–plutonium–zirconium (U–Pu–Zr) alloys containing 5 wt% or less m...
Understanding the microstructural and phase changes occurring during irradiation and their impact on...
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