Mechanical constitutive laws for the irradiation behavior of graphite

726 CARBON 108. Irradiation of graphite in HFIR\* C. R. Kennedy (Metals and Ceramics i&&ion, Oak Ridge National Laboratory, Oak Ridge, Tennessee). Fifteen different grades of graphite have been irradiated in the High Flux Isotope Reactor to ffuences up to Z-5 X 1O22 nvt (E > 50 keV) at 715°C. The di

## Small specimen measurements of dynamic Young's Modulus E, flexural strength Sand critical stress intensity factor K,, of pitchcoke graphite irradiated to a high fuel burn-up in a Civil Advanced Gas-cooled Reactor are reported. Previous data indicate that the fractional change in S due to fast n

Abstracts damage flux levels differing by a factor of about 8. Dimensional changes and thermal resistivity changes at the same irradiation temperatures at both flux levels are intercompared up to fast neutron doses -lO"n/cm\* (DNE). 299. The effect of fast neutron irradiation on the stressshin relat

Stress-graphitized pyrolytic carbon specimens were subjected to reactor irradiation (-1015nvt -fast) while their temperature was maintained near 77°K. The specimen temperature was subsequently held near 77°K while the specimens were transferred into a testing apparatus where the dynamic mechanical p