First thermal fatigue studies of tungsten armor for DEMO and ITER at the OLMAT High Heat Flux facility

Abstract

The armor for future nuclear fusion reactors is one of the main areas of research due to the harsh conditions it

will undergo. Thermal fatigue is one of the most serious damage, as it will cause any material to fail even if the

heat and particle loads during the reactor operation are always maintained low. In this work we have compared

the actual tungsten armor for ITER tokamak with a new advanced tungsten material: tungsten reinforced by

tungsten fibers (Wf/W). ITER-like W has shown small intergranular cracking at heat loads similar to the ones

found in other similar devices: heat flux factor of FHF = 5.2 ± 1.6 MW/m2s0.5. But at much lower number of

pulses: 641 versus 105. H embrittlement by the high-energy ions of OLMAT has been postulated as one of the

main reason of this relatively prompt cracking appearance. Opposed to this, the type of Wf/W studied here,

Porous Matrix (PM-Wf/W), has shown no damage at the same conditions and up to 950 pulses. These results

show the capabilities of OLMAT for fatigue studies in conditions relevant to a future nuclear fusion reactor. New

upgrades of OLMAT will partially solve the issues found in this first phase. Future work to continue with fatigue

studies will be addressed