Challenges to the use of ion irradiation for emulating reactor irradiation

Development of new materials for current and advanced reactor concepts is hampered by long lead times and high cost of reactor irradiations coupled with the paucity of test reactors. Ion irradiation offers many advantages for emulating the microstructures and properties of materials irradiated in re...

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Veröffentlicht in:	Journal of materials research 2015-05, Vol.30 (9), p.1158-1182
1. Verfasser:	Was, Gary S.
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Sprache:	eng
Schlagworte:	Analysis Anisotropy Annealing Applied and Technical Physics Benchmarking Biomaterials Inorganic Chemistry Invited Review Ion irradiation Irradiation Joining Lead time Materials Engineering Materials research Materials Science Microstructure Nanotechnology Neutron irradiation Nuclear energy Nuclear reactors Point defects Proton irradiation Radiation Reactors Studies Temperature
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container_title	Journal of materials research
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creator	Was, Gary S.
description	Development of new materials for current and advanced reactor concepts is hampered by long lead times and high cost of reactor irradiations coupled with the paucity of test reactors. Ion irradiation offers many advantages for emulating the microstructures and properties of materials irradiated in reactors but also poses many challenges. Nevertheless, there is a growing body of evidence, primarily for light ion (proton) irradiation showing that many, if not all of the features of the irradiated microstructure and properties, can be successfully emulated by careful selection of irradiation parameters based on differences in the damage processes between ion and neutron irradiation. While much less has been done to benchmark heavy- or self-ion irradiation, recent work shows that under certain conditions, the complete suite of features of the irradiated microstructure can be emulated. This study summarizes the contributions of ion irradiation to our understanding of irradiation effects, the options for emulating radiation effects in reactors, and experience with both proton irradiation and heavy ion irradiation.
doi_str_mv	10.1557/jmr.2015.73
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subjects	Analysis Anisotropy Annealing Applied and Technical Physics Benchmarking Biomaterials Inorganic Chemistry Invited Review Ion irradiation Irradiation Joining Lead time Materials Engineering Materials research Materials Science Microstructure Nanotechnology Neutron irradiation Nuclear energy Nuclear reactors Point defects Proton irradiation Radiation Reactors Studies Temperature
title	Challenges to the use of ion irradiation for emulating reactor irradiation
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