Journal
NUCLEAR MATERIALS AND ENERGY
Volume 30, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.nme.2022.101147
Keywords
Fe-Cr alloys; Ion irradiation; Lattice damage; Cr depletion; Polarized neutron reflectivity; Magnetization
Categories
Funding
- Euratom research and training programme 2014-2018
- Euratom research and training programme 2019-2020 [633053]
- Science and Technology Facilities Council
- Hellenic General Secretariat for Research and Innovation
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The study found that Fe-10at%Cr alloy exhibited dose-dependent effects such as lattice constant increase, grain size growth, and Cr depletion in the matrix after irradiation, with these changes largely occurring before 4 dpa and the system reaching a dynamic equilibrium afterwards.
Fe-Cr alloys constitute the model systems for the investigation of radiation damage effects in ferritic-martensitic steels which are candidate structural materials for fusion reactors. In the current study Fe-10at%Cr alloy films of 70 nm thickness were irradiated by 490 keV Fe + ions at 300 degrees C at doses ranging from 0.5 up to 20 displacements per atom (dpa). The Fe + ion energy chosen corresponds to the energy of primary Fe(Cr) knock-on atoms from 14 MeV neutrons. The irradiation effects were investigated employing X-ray diffraction and X-ray and polarized neutron reflectivity. The irradiation produced dose dependent: a) lattice constant increase, b) grain size growth and c) Cr depletion in the matrix. These changes occur largely up to 4 dpa and afterwards the system attains a dynamic equilibrium.
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