Add to ORKGThe safety of nuclear power plants is one of the major issues in nuclear materials research. In this context, this PhD thesis presents an original experimental investigation of melting behaviour of several refractory nuclear materials, whose phase diagrams are often still uncertain at temperatures exceeding 2500 K. The physicochemical properties presented for several pure and mixed actinide oxides constitute an important step forward in the understanding the behaviour of different types of nuclear fuel under extreme conditions
AbstractThe melting behaviour in the pseudo-binary system (UO2+NpO2) has been studied experimentally...
International audienceIn order to use mixed U-Pu oxide ceramics in present and future nuclear reacto...
The melting behaviour in the pseudo-binary system UO2 – NpO2 has been experimentally assessed for th...
The present work highlights the importance, in nuclear fuel safety and performance, of the very high...
This work revisits the melting behaviour of neptunium dioxide, an actinide compound which can be pro...
AbstractThe present work highlights the importance, in nuclear fuel safety and performance, of the v...
The oxides of the transuranic elements have been the subject of numerous investigations since the di...
Recently, novel container-less laser heating experimental data have been published on the melting be...
The melting behaviour of mixed uranium-plutonium dioxides (MOX) has been investigated by laser heati...
In the context of a comprehensive campaign for the characterisation of transmutation fuels for next ...
Spent nuclear fuel from commercial reactors is comprised of 95-99 percent UO{sub 2} and 1-5 percent ...
In the context of a comprehensive campaign for the characterisation of transmutation fuels for next ...
The broad objective of research described in this thesis was the experimental determination of the s...
Due to its complex phase diagram and the employment of UO2 as a nuclear fuel, the binary system U¿O ...
A growing demand for energy supply worldwide, coupled with the necessity to reduce emission of green...
AbstractThe melting behaviour in the pseudo-binary system (UO2+NpO2) has been studied experimentally...
International audienceIn order to use mixed U-Pu oxide ceramics in present and future nuclear reacto...
The melting behaviour in the pseudo-binary system UO2 – NpO2 has been experimentally assessed for th...
The present work highlights the importance, in nuclear fuel safety and performance, of the very high...
This work revisits the melting behaviour of neptunium dioxide, an actinide compound which can be pro...
AbstractThe present work highlights the importance, in nuclear fuel safety and performance, of the v...
The oxides of the transuranic elements have been the subject of numerous investigations since the di...
Recently, novel container-less laser heating experimental data have been published on the melting be...
The melting behaviour of mixed uranium-plutonium dioxides (MOX) has been investigated by laser heati...
In the context of a comprehensive campaign for the characterisation of transmutation fuels for next ...
Spent nuclear fuel from commercial reactors is comprised of 95-99 percent UO{sub 2} and 1-5 percent ...
In the context of a comprehensive campaign for the characterisation of transmutation fuels for next ...
The broad objective of research described in this thesis was the experimental determination of the s...
Due to its complex phase diagram and the employment of UO2 as a nuclear fuel, the binary system U¿O ...
A growing demand for energy supply worldwide, coupled with the necessity to reduce emission of green...
AbstractThe melting behaviour in the pseudo-binary system (UO2+NpO2) has been studied experimentally...
International audienceIn order to use mixed U-Pu oxide ceramics in present and future nuclear reacto...
The melting behaviour in the pseudo-binary system UO2 – NpO2 has been experimentally assessed for th...