Publication detail

Radiation damage evolution in pure W and W-Cr-Hf alloy caused by 5 MeV Au ions in a broad range of dpa

MACKOVÁ, A. FERNANDES, S. MATĚJÍČEK, J. VILÉMOVÁ, M. HOLÝ, V. LIEDKE, M.O. MARTAN, J. VRONKA, M. POTOČEK, M. BÁBOR, P. BUTTERLING, M. ATTALLAH, A.G. HIRSCHMANN, E. WAGNER, A. HAVRANEK, V.

Original Title

Radiation damage evolution in pure W and W-Cr-Hf alloy caused by 5 MeV Au ions in a broad range of dpa

Type

journal article in Web of Science

Language

English

Original Abstract

Pure W and W-Cr-Hf alloy which are prospective materials for nuclear fusion reactors, such as DEMO, were irradiated at room temperature with 5 MeV Au2+ ions with fluences between 4 x 10(14) and 1.3 x 10(16) ions.cm (-2) to generate various levels of lattice damage from about units up to tens of dpa. The distinct character of radiation damage accumulation, microstructure and defect nature have been observed in both pure W and W-Cr-Hf alloys, the latter exhibited interesting ability of damage reorganisation and defect size decrease at the higher ion fluences as determined by positron annihilation spectroscopy (PAS). High radiation damage rate in the irradiated layer has been evidenced in the W samples already at the lower Au-ion fluences compared to W-Cr-Hf samples, where the damage increased in steps with the increasing Au-ion fluence. The distinct defect accumulation was accompanied with the different Au-ion implanted distribution in the irradiated layer determined by Secondary Ion Mass Spectrometry (SIMS) as well as the thermal properties have shown the consequent worsening in the depth in good agreement with the Au-depth concentration profiles. TEM corroborated above mentioned findings, where the sub-surface layer exhibited defect release after the irradiation, the maximum of dislocation loop density has been identified in the depth according the predicted dpa (displacement particles per atom) maximum for the lower Au-ion fluences. Moreover, TEM shows the dislocation density band structure appeared in W-Cr-Hf samples exhibiting the high density defect band according the projected range of the Au-ions simultaneously with the additional layer with larger isolated dislocations pronounced in the higher depth as a growing function of Au-ion fluence. Such phenomenon was not observed in W samples.

Keywords

W and W-Cr alloy ion irradiation; Radiation damage; Fusion materials; Structure analysis of defects

Authors

MACKOVÁ, A.; FERNANDES, S.; MATĚJÍČEK, J.; VILÉMOVÁ, M.; HOLÝ, V.; LIEDKE, M.O.; MARTAN, J.; VRONKA, M.; POTOČEK, M.; BÁBOR, P.; BUTTERLING, M.; ATTALLAH, A.G.; HIRSCHMANN, E.; WAGNER, A.; HAVRANEK, V.

Released

1. 12. 2021

Publisher

ELSEVIER

Location

AMSTERDAM

ISBN

2352-1791

Periodical

Nuclear Materials and Energy

Year of study

29

Number

1

State

Kingdom of the Netherlands

Pages from

101085-1

Pages to

101085-15

Pages count

15

URL

https://www.sciencedirect.com/science/article/pii/S2352179121001514?via%3Dihub