Table 4

 

 

WP2

WP3

WP4

WP5

WP6

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

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

 

 

 

 

 

See WP3

NI (NCBJ)

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)

 

 

 

 

Mechanically strained Fe

TEM (SCK), NI (UCov, JRC)

 

 

 

 

 

 

 

 

5 MeV Fe2+, RT, 1 dpa

NI (CVR, SCK)

 

 

 

 

 

 

 

 

5 MeV Fe2+, 300°C, 0.1 dpa

NI (HZDR)

 

 

 

 

 

 

 

 

5 MeV Fe2+, 300°C, 1 dpa

NI (HZDR, SCK), TEM (before and after NI) (SCK)

 

 

 

 

 

 

 

 

5 MeV Fe2+, 450°C, 1 dpa

NI (JRC)

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

 

 

 

 

 

 

See WP3

NI (NCBJ)

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)

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)

 

 

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)

 

 

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)

 

 

 

 

 

 

 

 

5 MeV Fe2+, 450°C, 0.1 dpa

NI (PSI)

 

 

 

 

 

 

 

 

5 MeV Fe2+, 450°C, 1 dpa

NI (JRC)

 

 

 

 

 

 

 

 

Proton irradiated

0.5 dpa, at 200 and 300ºC (Nov2020, COVID permitting)

NI (PSI)

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)

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

 

 

 

 

 

 

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)

 

 

 

 

 

 

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)

 

 

 

 

 

 

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)

 

 

 

 

5 MeV Fe2+, 1 dpa, RT

NI (Aalto, bad surface)

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)

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

 

 

 

 

5 MeV Fe2+, 2.7 dpa, 300°C

NI (HZDR)

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

 

 

 

 

 

 

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

 

 

 

 

 

 

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

 

 

 

 

 

 

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

 

 

 

 

 

 

 

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)

 

 

 

 

 

 

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)

 

 

 

 

 

 

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)

 

 

 

 

 

 

 

 

8 MeV Fe3+, high flux, rastered, 300ºC, 2.5 dpa

APT (CNRS)

 

 

 

 

 

 

 

 

 

5 MeV Fe2+, high flux, rastered, 300ºC, 2.5 dpa

APT (CNRS)

 

 

 

 

 

 

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)

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)

 

 

 

 

Ion irrad. 5 MeV

300°C, 0.1 dpa

NI (CVR, bad surface)

 

 

 

 

 

 

 

 

Ion irrad. 5MeV

300 °C, 1 dpa

NI (HZDR)

 

 

 

 

 

 

 

 

Ion irrad. 5 MeV

450 °C, 0.1 dpa

NI (CVR, SCK), TEM (SCK)

 

 

 

 

 

 

 

 

Ion irrad. 5 MeV

450 °C, 1 dpa

NI (JRC)

Fe16Cr single crystal

 

 

 

 

Proton irradiated

0.5 dpa, ≈300ºC

TEM, In-situ straining (PSI)