Irradiation-induced defect evolution in graphite is particularly important for its application in graphite-moderated nuclear reactors. The evolution of defects directly influences macroscopically observed property changes in irradiated nuclear graphite which, in turn, can govern the lifetime of graphite components. This article reports novel defect structures and the irradiation response of microstructural features occurring in high-temperature irradiated nuclear graphite IG-110. High resolution transmission electron microscopy (HRTEM) was used to characterize specimens neutron-irradiated at a high temperature (≥800 °C) at doses of 1.73 and 3.56 atomic displacements per atom (dpa). Concentric shelled and fullerene-like defects were found to...
International audienceGraphite response to irradiations has been widely studied in the past because ...
The neutron irradiation-induced structural changes in nuclear grade graphites PCEA and PCIB were inv...
The default theory of radiation damage in graphite invokes Frenkel pair formation as the principal c...
Irradiation-induced defect evolution in graphite is particularly important for its application in gr...
Graphite has historically been used as a moderator material in nuclear reactor designs dating back t...
Irradiation-induced property change in nuclear graphite is particularly important when considering t...
Defect evolution in nuclear graphite has been studied in real time using high-temperature in situ tr...
This paper reports the neutron-irradiation-induced effects on the microstructure of NBG-18 and IG-11...
Microcracks in neutron-irradiated nuclear grade graphite have been examined in detail for the first ...
Nuclear Graphite is a complex material, and its microstructure depends strongly upon the starting ma...
Detailed knowledge regarding the nature of and mechanisms causing neutron irradiation damage in grap...
Radiation damage in nuclear grade graphite has been investigated using transmission electron microsc...
This thesis investigates graphites used in nuclear materials engineering applications – so called nu...
Structural and chemical bonding changes in nuclear graphite have been investigated during in-situ el...
International audienceDue to its excellent moderator and reflector qualities, graphite was used in C...
International audienceGraphite response to irradiations has been widely studied in the past because ...
The neutron irradiation-induced structural changes in nuclear grade graphites PCEA and PCIB were inv...
The default theory of radiation damage in graphite invokes Frenkel pair formation as the principal c...
Irradiation-induced defect evolution in graphite is particularly important for its application in gr...
Graphite has historically been used as a moderator material in nuclear reactor designs dating back t...
Irradiation-induced property change in nuclear graphite is particularly important when considering t...
Defect evolution in nuclear graphite has been studied in real time using high-temperature in situ tr...
This paper reports the neutron-irradiation-induced effects on the microstructure of NBG-18 and IG-11...
Microcracks in neutron-irradiated nuclear grade graphite have been examined in detail for the first ...
Nuclear Graphite is a complex material, and its microstructure depends strongly upon the starting ma...
Detailed knowledge regarding the nature of and mechanisms causing neutron irradiation damage in grap...
Radiation damage in nuclear grade graphite has been investigated using transmission electron microsc...
This thesis investigates graphites used in nuclear materials engineering applications – so called nu...
Structural and chemical bonding changes in nuclear graphite have been investigated during in-situ el...
International audienceDue to its excellent moderator and reflector qualities, graphite was used in C...
International audienceGraphite response to irradiations has been widely studied in the past because ...
The neutron irradiation-induced structural changes in nuclear grade graphites PCEA and PCIB were inv...
The default theory of radiation damage in graphite invokes Frenkel pair formation as the principal c...