IRRADIATION CREEP OF LOW-ACTIVATION FERRITIC STEELS IN FFTF MOTA/

Irradiation creep behavior of low-activation steels, developed as stru ctural materials for fusion reactors (JLF series steels), was investig ated to obtain a fundamental understanding of these alloys under fast neutron irradiation in FFTF. (2.25-8)Cr(1-2)W bainitic steels and 12Cr -2W ferritic steels showed superior creep resistance to type-316 stain less steels under fast neutron irradiation up to 520 degrees C. At tem peratures below 460 degrees C the creep strain increased with increasi ng Cr content up to 7 Cr, and further increments of Cr content up to 1 2% reduced the creep strain. At temperatures between 460 and 600 degre es C, 7-8 Cr ferritic steels showed the largest creep strain. Swelling -enhanced creep, near the peak swelling temperature of 410 degrees C, was also observed. The 9Cr-2W ferritic steel JLF-1 presented excellent properties, suggesting it as a leading candidate alloy for structural components of fusion reactors.