Table 4
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WP2 |
WP3 |
WP4 |
WP5 |
WP6 |
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Material (number and short name) |
Irradiation condition |
Techniques applied |
Irradiation condition |
Techniques applied |
Irradiation condition |
Techniques applied |
Irradiation condition |
Techniques applied |
Irradiation condition |
Techniques applied |
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G379-Fe* |
Non irradiated |
TEM (CIEMAT, SCK), IF+MAE (SCK, IFZ), SANS (HZDR), PAS, Vickers hardness & tensile (SCK) - from MatISSE or other projects |
275 keV Fe+ 3.5x1013 ions/cm2, 0.1, 1 dpa, 3000C |
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|
|
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See WP3 |
NI (NCBJ) |
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Neutron irradiated ~450°C / 0.11 dpa (from MatISSE) |
TEM (CIEMAT), PAS, Vickers hardness & tensile (SCK) - from MatISSE Further TEM (SCK) in M4F |
275 keV Fe+ 3.5x1013 ions/cm2, 0.1 dpa, 4500C |
|
|
|
|
|
See WP3 |
NI (NCBJ) |
|||
8 MeV Fe3+ ions, 0.1 dpa, 300°C |
MAE |
5 MeV Fe2+, 0.5 dpa, 300ºC - from MatISSE |
TEM (CIEMAT, NCBJ) |
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|
|
|
Mechanically strained Fe |
TEM (SCK), NI (UCov, JRC) |
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|
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5 MeV Fe2+, RT, 1 dpa |
NI (CVR, SCK) |
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|
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|
|
|
5 MeV Fe2+, 300°C, 0.1 dpa |
NI (HZDR) |
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5 MeV Fe2+, 300°C, 1 dpa |
NI (HZDR, SCK), TEM (before and after NI) (SCK) |
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5 MeV Fe2+, 450°C, 1 dpa |
NI (JRC) |
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G385 Fe-9Cr |
Non irradiated |
TEM (CIEMAT, SCK), SANS (HZDR), IF + MAE (SCK, IFZ), PAS, Vickers hardness & tensile tests (SCK) - from MatiSSE |
Ion irrad. 275 keV, 0.1 and 1 dpa, at RT, 300 and 450°C
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|
|
|
|
|
See WP3 |
NI (NCBJ) |
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Neutron irradiated ~290°C / 0.11 dpa |
APT (CNRS), TEM (CIEMAT), PAS, Vickers hardness (SCK) – in M4F SANS (HZDR), TEM, tensile tests (SCK) - from MatISSE or other projects |
|
|
|
|
|
|
See WP2 |
NI (CIEMAT) |
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8 MeV Fe3+, high flux, rastered, 0.1 dpa, 300°C |
TEM (CIEMAT), PAS (SCK), PAS (HZDR) optional, not part ofplans |
8 MeV Fe3+, high flux, rastered, 0.5 dpa, 300ºC |
TEM (HZDR) results are available for 5 MeV from MatISSE to compare |
|
|
|
|
5 MeV Fe2+, RT, 1 dpa |
NI (PSI) |
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|
|
8 MeV Fe3+, low flux, rastered, 0.5 dpa, 300ºC |
TEM (HZDR) |
5 MeV Fe2+, 0.5 dpa, 300°C |
TEM, In-situ straining (CIEMAT)
|
See WP4 |
TEM, FEG-SEM (CIEMAT), AFM (CEA) |
5 MeV Fe2+, 300°C, 0.1 dpa |
NI (CIEMAT) |
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|
|
8 MeV Fe3+, high flux, rastered, 2.5 dpa, 300ºC |
TEM (HZDR)
|
Proton irradiated 1 dpa, ≈300ºC
|
TEM,In-situ straining (CIEMAT) |
|
|
5 MeV Fe2+, 300°C, 1 dpa |
NI, TEM (HZDR, CIEMAT) |
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5 MeV Fe2+, 450°C, 0.1 dpa |
NI (PSI) |
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5 MeV Fe2+, 450°C, 1 dpa |
NI (JRC) |
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|
Proton irradiated 0.5 dpa, at 200 and 300ºC (Nov2020, COVID permitting) |
NI (PSI) |
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G389 Fe-9Cr-NiSiP |
Non irradiated |
APT (CNRS), TEM (CIEMAT, SCK), IF+MAE (SCK,IFZ), SANS (HZDR), PAS, Vickers hardness, & tensile tests (SCK) - from MatISSE |
Ion irrad. 275 keV, 0.1 and 1 dpa, at RT, 300 and 450°C |
|
|
|
|
|
See WP3 |
NI (NCBJ) |
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Neutron irradiated ~290°C / 0.11 dpa – from MatISSE |
APT (CNRS), TEM (CIEMAT), PAS, Vickers hardness (SCK)– in M4F SANS (HZDR), TEM, & tensile tests (SCK) - from MatISSE or other projects |
HF rastered beam 300ºC, 0.5 dpa, 8 MeV Fe+ |
TEM (CIEMAT) APT (CNRS) - results available for 5 MeV from MatISSE |
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|
|
|
|
|
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8 MeV Fe3+, high flux, rastered, 0.1 dpa, 300°C |
TEM (CIEMAT), APT (CNRS), PAS (SCK) |
8 MeV Fe3+, high flux, rastered, 2.5 dpa, 300ºC |
TEM (CIEMAT), APT (CNRS) |
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|
|
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L252 Fe-9CrNiSiP (Mart.) |
Non irradiated |
APT (CNRS), TEM (CIEMAT), SANS (HZDR), IF+MAE (SCK,IFZ), PAS, Vickers hardness & tensile tests (SCK) - from MatISSE and GETMAT |
8 MeV Fe3+, high flux, defocused, 0.5 dpa, 300ºC |
TEM (CIEMAT) |
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|
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Neutron irradiated ~290°C / 0.11 dpa – from MatISSE |
TEM (CIEMAT), APT (CNRS), PAS, Vickers hardness (SCK) – in M4F SANS (HZDR), tensile tests (SCK) - from MatISSE or other previous projects |
8 MeV Fe3+, low flux, rastered, 0.5 dpa, 300ºC |
TEM (CIEMAT), APT(CNRS) |
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|
|
|
5 MeV Fe2+, 1 dpa, RT |
NI (Aalto, bad surface) |
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Neutron irradiated ~450°C / 0.11 dpa |
APT (CNRS) – in M4F PAS, Vickers hardness & tensile tests (SCK) - from MatISSE or other previous projects |
8 MeV Fe3+, high flux, rastered, 0.5 dpa, 300ºC |
TEM (CIEMAT), APT(CNRS) |
|
|
|
|
5 MeV Fe2+, 0.1 dpa, 450°C |
NI (CVR, bad surface) |
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8 MeV Fe3+, high flux, rastered, 0.1 dpa, 300ºC |
TEM (CIEMAT), PAS (SCK) |
8 MeV Fe3+, high flux, rastered, 2.5 dpa, 300ºC |
APT (CNRS) specimens are available for 0.5 dpa from MatISSE to compare |
|
|
|
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5 MeV Fe2+, 2.7 dpa, 300°C |
NI (HZDR) |
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G390 Fe-14Cr |
|
|
5 MeV Fe2+, high flux, rastered, 2.5 dpa,300ºC |
APT (CNRS) specimens are available for 0.5 dpa from MatISSE to compare |
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G391 Fe14Cr-Ni |
|
|
5 MeV Fe2+, high flux, rastered, 2.5 dpa,300ºC |
APT (CNRS) specimens are available for 0.5 dpa from MatISSE to compare |
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G392 Fe14Cr-Si |
|
|
5 MeV Fe2+, high flux, rastered, 2.5 dpa,300ºC |
APT (CNRS) specimens are available for 0.5 dpa from MatISSE to compare |
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G393 Fe14Cr-P |
|
|
5 MeV Fe2+, high flux, rastered, 2.5 dpa,300ºC |
APT (CNRS) specimens are available for 0.5 dpa from MatISSE to compare |
|
|
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G394 Fe14Cr-NiSiP |
Non irradiated |
APT (CNRS), SANS & GIPS (HZDR), IF-MAE (SCK,IFZ), PAS, Vickers hardness, tensile tests (SCK) -from MatISSE |
8 MeV Fe3+, low flux, rastered, 300ºC, 0.5 dpa |
APT (CNRS) |
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|
|
|
|
|
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Neutron irradiated ~290°C / 0.11 dpa – from MatISSE |
APT (CNRS) – in M4F SANS, GIPS (HZDR), PAS, Vickers hardness & tensile tests (SCK) - from MatISSE |
8 MeV Fe3+, high flux, defocused, 300ºC, 0.5 dpa |
APT (CNRS) |
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|
|
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|
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Neutron irradiated ~450°C / 0.11 dpa – from MatISSE |
APT (CNRS) – in M4F SANS, GIPS (HZDR), PAS, Vickers hardness & tensile tests (SCK) - from MatISSE |
8 MeV Fe3+, low flux, rastered, 300ºC, 2.5 dpa |
APT (CNRS) |
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8 MeV Fe3+, high flux, rastered, 300ºC, 2.5 dpa |
APT (CNRS) |
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5 MeV Fe2+, high flux, rastered, 300ºC, 2.5 dpa |
APT (CNRS) |
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E97 Eurofer97 (Heat E83699, Böhler Austria GmbH) |
Non irradiated (Batch E83699) |
TEM (CIEMAT) – in M4F SANS (HZDR), APT (CNRS), IF + MAE (SCK,IFZ), PAS, TEM, Vickers hardness & tensile tests (SCK) – From MatISSE |
Ion irrad. 275 keV, at RT, 300 and 450°C, 0.1, 1 and 10 dpa (10 dpa not at RT) |
|
|
|
|
|
See WP3 |
NI (NCBJ) |
||
Neutron irradiated ~290°C / 0.11 dpa – from MatISSE
|
TEM (CIEMAT), APT (CNRS), PAS, Vickers hardness (SCK) – in M4F SANS (HZDR), TEM, tensile tests (SCK) – from MatISSE or other project |
8 MeV Fe3+, high flux, rastered, 0.5 dpa, 300ºC |
TEM (CIEMAT), APT (CNRS) |
5 MeV Fe2+, 0.5 dpa, 300°C (may not be enough to see loops) TEM |
in-situ straining** (CIEMAT, unlikely) |
Neutron irradiated, 300°C, 0.22-1.18 dpa |
TEM, Mechanical testing, SEM (SCK) |
Proton irradiated 0.5 dpa, at 200 and 300ºC |
NI (PSI) |
|||
Neutron irradiated ~450°C / 0.11 dpa – from MatISSE
|
TEM (CIEMAT) – in M4F APT (CNRS), PAS, TEM, Vickers hardness & tensile tests (SCK) – from MatISSE or other previous project |
8 MeV Fe3+, low flux, rastered, 0.5 dpa, 300ºC |
TEM (CIEMAT), APT (CNRS) |
|
|
|
|
Ion irrad. 5 MeV RT, 1 dpa |
NI (CVR, Aalto) |
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8 MeV Fe3+, high flux, rastered, 0.1 dpa, 300°C (Batch E83699) |
PAS (SCK), TEM (CIEMAT, to be confirmed |
8 MeV Fe3+, high flux, rastered, 2.5 dpa, 300ºC |
TEM (CIEMAT), APT (CNRS) |
|
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|
|
Ion irrad. 5 MeV 300°C, 0.1 dpa |
NI (CVR, bad surface) |
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Ion irrad. 5MeV 300 °C, 1 dpa |
NI (HZDR) |
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Ion irrad. 5 MeV 450 °C, 0.1 dpa |
NI (CVR, SCK), TEM (SCK) |
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Ion irrad. 5 MeV 450 °C, 1 dpa |
NI (JRC) |
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Fe16Cr single crystal |
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Proton irradiated 0.5 dpa, ≈300ºC |
TEM, In-situ straining (PSI)
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