Add to ORKGInternational audienceCeramics are key engineering materials in many industrial domains. The evaluation of radiation damage in ceramics placed in a radiative environment is a challenging problem for electronic, space and nuclear industries. Ion beams delivered by various types of accelerators are very efficient tools to simulate the interactions involved during the slowing-down of energetic particles. This article presents a review of the radiation effects occurring in nuclear ceramics, with an emphasis on new results concerning the damage build-up. Ions with energies in the keV-GeV range are considered for this study in order to explore both regimes of nuclear collisions (at low energy) and electronic excitations (at high energy). The reco...
The family of layered carbides and nitrides known as MAX phase ceramics combine many attractive prop...
International audienceSynergistic effects of nuclear (Sn) and electronic (Se) energy losses are inve...
International audienceThis work aims at comparing the damage induced in the Nd silicate apatite cera...
International audienceCeramics are key engineering materials in many industrial domains. The evaluat...
Due to outstanding physicochemical properties, ceramics are key engineering materials in many indust...
Ceramic oxides and carbides are promising matrices for the immobilization and/or transmutation of nu...
Expérience GANILInternational audienceCeramics are key engineering materials for electronic, space a...
We have used atomistic computer simulations and ion beam irradiations to examine radiation damage ac...
The evaluation of radiation damage in materials submitted to intense irradiation is a challenging pr...
Ceramics possess interesting physico-chemical properties that lead to the use of these materials in ...
International audienceIrradiation with energetic particles induces elastic displacement damage and e...
The family of layered carbides and nitrides known as MAX phase ceramics combine many attractive prop...
International audienceSynergistic effects of nuclear (Sn) and electronic (Se) energy losses are inve...
International audienceThis work aims at comparing the damage induced in the Nd silicate apatite cera...
International audienceCeramics are key engineering materials in many industrial domains. The evaluat...
Due to outstanding physicochemical properties, ceramics are key engineering materials in many indust...
Ceramic oxides and carbides are promising matrices for the immobilization and/or transmutation of nu...
Expérience GANILInternational audienceCeramics are key engineering materials for electronic, space a...
We have used atomistic computer simulations and ion beam irradiations to examine radiation damage ac...
The evaluation of radiation damage in materials submitted to intense irradiation is a challenging pr...
Ceramics possess interesting physico-chemical properties that lead to the use of these materials in ...
International audienceIrradiation with energetic particles induces elastic displacement damage and e...
The family of layered carbides and nitrides known as MAX phase ceramics combine many attractive prop...
International audienceSynergistic effects of nuclear (Sn) and electronic (Se) energy losses are inve...
International audienceThis work aims at comparing the damage induced in the Nd silicate apatite cera...