29th Symposium on Fusion Technology (SOFT 2016)

P1.173 Repeatability of irradiation damage and of recovery by post-irradiation annealing of EUROFER base steels

5 Sep 2016, 14:20

1h 40m

Foyer 2A (2nd floor), 3A (3rd floor) (Prague Congress Centre)

Board: 173

Poster I. Materials Technology P1 Poster session

Speaker

Hans-Christian Schneider (Institute for Applied Materials)

Description

Former Investigations clearly had revealed that embrittlement and hardening of RAFM steel after 15 - 70 dpa neutron irradiation damage remarkably can be reduced by short time post-irradiation annealing (PIA) at 550 °C [1, 2]. The purpose of this study is to demonstrate the repeatability of the damage- and recovery-mechanisms to RAFM 7-10% CrWVTa, ODS EUROFER, Boron doped heats of the prior 330 °C Bor 60 reactor (SSC RIAR) irradiations CP1 (6.5 dpa), CP2 (2.5 dpa), and WTZ RUS 01/577 (15 dpa). Tensile and KLST Charpy-V impact specimens have been investigated in irradiated state after a first annealing (PIA-1), after a subsequent further irradiation up to 4.6 – 5.4 dpa at 330 °C in the Bor 60 reactor, and after a second annealing (PIA-2). Both, tensile and impact tests clearly indicate that irradiation induced hardening occurs after the second irradiation of intermediately annealed (PIA-1 and thus recovered) material in the same order like after the first irradiation. In addition, a subsequent PIA-2 leads to a complete recovery of the newly applied neutron damage. This suggests that lifetime of fusion power plant components of RAFM steels substantially could be extended by repeated intermediate annealing treatments and respectively that components could withstand much higher nominal damage dose rates using intermediate annealing. [1] Gaganidze, E.; Petersen, C.; Materna-Morris, E.; Dethloff, C.; Weiß, O.J.; Aktaa, J.; Povstyanko, A.; Fedoseev, A.; Makarov, O.; Prokhorov, V.: Mechanical properties and TEM examination of RAFM steels irradiated up to 70 dpa in BOR-60, J. Nucl. Mat. 417(2011), p 93 - 98 [2] Sacksteder, I.; Schneider, H.-C.; Materna-Morris, E.: Determining irradiation damage and recovery by instrumented indentation in RAFM steel, J. Nucl. Mat. 417(2011), p 127 - 130