Material Irradiations
- Low and high dose irradiation capacity
- Decades of experience with wide range of structural materials
- Extensive post-irradiation analysis capabilities in Hot Cell Laboratory
We generate data to establish safe and economical application of materials in current and future nuclear reactors.
About Material Irradiations
Performance of structural materials under irradiation is critical to the safe and economic operation of current and future nuclear reactors. NRG has decades of experience on performing materials irradiations over a range of flux and temperature conditions. Through irradiations in the High Flux Reactor and characterization of materials in the Hot Cell Laboratories, data is generated to support:
- Life time management of currently operating reactors
- Qualification of materials for new build reactors
- Screening and development of new materials for advanced (Gen IV) reactors
Typical activities that we carry out in our daily work are:
- Design and build irradiation facilities 100% in-house
- Irradiation under stable neutron flux and spectrum conditions
- Development of sensors for in-situ monitoring of parameters such as: gas flow, gas composition, temperature, strain, sample dimensions
- Examination and characterization of irradiated specimens in shielded facilities, e.g.: Mechanical testing, Microstructural characterization, Physical characterization
Reactor life time management
Lifetime management of nuclear reactors requires knowledge of the aging mechanisms of its components. Material properties of reactor components are affected in particular by the effect of neutron irradiation and other environmental conditions.
NRG performs irradiations in the HFR to study the aging mechanisms of reactor materials. Characterization of the irradiated specimens is then performed in the Hot Cell Laboratories. The data that is acquired from these irradiation programs are used to assess the safe and economic performance of nuclear reactors.
Examples of NRG’s irradiation programs with a focus on the aging mechanisms of reactor materials are:
- Nuclear graphite irradiations to support lifetime extension of Advanced Gas-cooled Reactors (AGRs) in the U.K.
- Mechanical and microstructural testing of reactor pressure vessel (RPV) materials irradiated to high fluence
Qualification and development of structural materials
Lifetime management of nuclear reactors requires knowledge of the aging mechanisms of its components. Material properties of reactor components are affected in particular by the effect of neutron irradiation and other environmental conditions.
NRG performs irradiations in the HFR to study the aging mechanisms of reactor materials. Characterization of the irradiated specimens is then performed in the Hot Cell Laboratories. The data that is acquired from these irradiation programs are used to assess the safe and economic performance of nuclear reactors.
Examples of NRG’s irradiation programs with a focus on the aging mechanisms of reactor materials are:
- Nuclear graphite irradiations to support lifetime extension of Advanced Gas-cooled Reactors (AGRs) in the U.K.
- Mechanical and microstructural testing of reactor pressure vessel (RPV) materials irradiated to high fluence
More information?
We're happy to help. Please contact our nuclear fuels and materials team and we will be in touch.
Team Nuclear Fuels & Materials
