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Mark Peters: Building on a strong foundation
Summer at the American Nuclear Society carries with it a sense of renewed momentum as the incoming president takes office and starts making plans for the year ahead. This has been particularly true in the last few years, as nuclear energy moves into a new era marked by broader public interest, stronger policy support, and a growing sense of possibility across the field. Mark Peters, the Society’s 72nd president, shares that optimism—and he is focused on turning it into results.
N. M. Ghoniem, G. L. Kulcinski
Fusion Science and Technology | Volume 2 | Number 2 | April 1982 | Pages 165-198
Overview | doi.org/10.13182/FST82-A20749
Articles are hosted by Taylor and Francis Online.
The effects of pulsed irradiation on the response of materials are reviewed in terms of the basic principles behind the experimental and theoretical efforts in this area. A general background on the phenomena associated with pulsed irradiation in a fusion reactor environment is outlined. It is shown that the systems most likely to have significant dynamic response to pulsed irradiation will be the inertial confinement fusion reactors (ICFRs), and to a lesser degree, the near-term tokamak fusion reactors. A brief description of the magnitudes of radiation damage and the time scales over which damage occurs is given for various fusion reactor concepts. This sets the boundary conditions that need to be considered in analyzing radiation effects in pulsed fusion systems. The work on the primary damage state is reviewed, analyzing the effects of neutrons and ions on the instantaneous damage state of ICFRs. Since the energy deposition manifests itself in the form of damage and heat, the temperature and stress waves accompanying damage in ICFR walls are discussed. The state of knowledge on the microstructure evolution during pulsed irradiation is outlined in detail giving the theoretical principles and experimental observations. Finally, the relationships between the evolving microstructure and properties such as swelling, solute segregation, and irradiation creep in a pulsed irradiation environment are investigated.