Hm. Chung et al., PROPERTIES OF VANADIUM-BASE ALLOYS IRRADIATED IN THE DYNAMIC HELIUM CHARGING EXPERIMENT, Journal of nuclear materials, 237, 1996, pp. 466-475
Citations number
24
Categorie Soggetti
Nuclear Sciences & Tecnology","Mining & Mineral Processing","Material Science
One property of vanadium-base alloys that is not well understood in te
rms of their potential use as fusion reactor structural materials, is
the effect of simultaneous generation of helium and neutron damage. In
the present Dynamic Helium Charging Experiment (DHCE), helium was pro
duced uniformly in the specimen at linear rates of approximate to 0.4
to 4.2 appm helium/dpa by the decay of tritium during irradiation to 1
8-31 dpa at 425-600 degrees C in Li-filled capsules in a sodium-cooled
fast reactor. This paper presents results of postirradiation examinat
ion and tests of microstructure and mechanical properties of V-5Ti, V-
3Ti-1Si, V-8Cr-6Ti, and V-4Cr-4Ti (the latter alloy has been identifie
d as the most promising candidate vanadium alloy). Effects of helium o
n tensile strength and ductility were insignificant after irradiation
and testing at > 420 degrees C. However, postirradiation ductilities a
t < 250 degrees C were higher than those of the non-DHCE specimens (<
0.1 appm helium), whereas strengths were lower, indicating that differ
ent types of hardening centers are produced during DHCE and non-DHCE i
rradiation. Ductile-brittle transition behavior of the DHCE specimens
was also determined from bend tests and fracture appearance of transmi
ssion electron microscopy (TEM) disks and broken tensile specimens. No
brittle behavior was observed at temperatures > -150 degrees C in DHC
E specimens. Predominantly brittle-cleavage fracture morphologies were
observed only at -196 degrees C in some specimens that were irradiate
d to 31 dpa at 425 degrees C during the DHCE. For the helium generatio
n rates in this experiment (approximate to 0.4-4.2 appm He/dpa), grain
-boundary coalescence of helium microcavities was negligible and inter
granular fracture was not observed.