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Return To: Session FT2 - Fusion Technology 2 (Friday, 23
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R. J. Kurtz 1, R. H. Jones 1,
E. E. Bloom 2, A. F. Rowcliffe 2,
D. L. Smith 3, G. R. Odette 4 and
F. W. Wiffen 5
1 Pacific Northwest National Laboratory Richland, WA 99352
2 Oak Ridge National Laboratory Oak Ridge, TN 37831
3 Argonne National Laboratory Argonne, IL 60439
4 University of California at Santa Barbara Santa Barbara, CA 93106
5 United States Department of Energy Germantown, MD 20874
United States of America
Abstract
It has long
been recognized that attainment of the safety and environmental potential of
fusion energy requires the successful development of low-activation materials
for the first wall , blanket and other high heat flux structural
components. Only a limited number of materials potentially possess the
physical, mechanical and low-activation characteristics required for this
application. The current U.S. structural materials research effort is focused
on three candidate materials: advanced ferritic steels, vanadium alloys, and
silicon carbide composites. Recent progress has been made in understanding the
response of these materials to neutron irradiation.
IAEA 1999