Ageing behaviour of neutron/irradiated Eurofer97

None, None; None, None; None, None; None, None; None, None; None, None

Ageing behaviour of neutron/irradiated Eurofer97

Book Chapter (2018)

Author(s)

I. Carvalho (Material Innovation Institute (M2i), NRG (Nuclear Research and Consultancy Group) Petten)

A Fedorov (NRG (Nuclear Research and Consultancy Group) Petten)

M. Kolluri (NRG (Nuclear Research and Consultancy Group) Petten)

N. Luzginova (NRG (Nuclear Research and Consultancy Group) Petten)

H. Schut (TU Delft - RST/Neutron and Positron Methods in Materials)

Jilt Sietsma (TU Delft - (OLD) MSE-3)

Research Group

(OLD) MSE-3

DOI related publication

https://doi.org/10.1007/978-3-319-70194-3_9

Mechanical properties Radiation damage Eurofer chromium steel Nuclear fusion High flux reactor

To reference this document use:

https://resolver.tudelft.nl/uuid:1ea30a10-0c4a-4211-a36d-7fbe4a8c042a

More Info

expand_more

Publication Year

2018

Language

English

Research Group

(OLD) MSE-3

Pages (from-to)

111-118

ISBN (print)

978-3-319-70192-9

ISBN (electronic)

978-3-319-70194-3

Abstract

Eurofer97 is a candidate structural material for nuclear fusion reactors. To better understand the ageing effects due to radiation during long-term use in real fusion conditions, Eurofer97 was neutron irradiated at the High Flux Reactor in The Netherlands. TEM images of post-irradiation Eurofer97 reveal a high density of irradiation-induced dislocation loops, fine precipitates and agglomeration of point defects. Microscopy results are related to post-irradiation tensile mechanical tests done at room temperature and at 300 °C. An increase of yield and ultimate tensile strength combined with a decrease of total elongation is observed in both tests and correlated with the presence of radiation damage.

No files available

Metadata only record. There are no files for this record.