“Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon...
-
Upload
dominick-day -
Category
Documents
-
view
214 -
download
0
Transcript of “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon...
![Page 1: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/1.jpg)
“Materials for Fission & Fusion Power”
Steve Roberts
SergeiDudarevCCFE
George Smith
Gordon TatlockLiverpool
Angus Wilkinson
Patrick Grant
AndrewJonesLiverpool
SteveDonnellyHuddersfield
SergioLozano-Perez
Michael Moody
James Marrow
SteveFitzgerald
Chris Grovenor
Paul Bagot
![Page 2: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/2.jpg)
“Materials for Fission & Fusion Power”
![Page 3: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/3.jpg)
MFFP: Hot topics• ODS alloy processing
– Microstructural development– Joining– Novel processing
• Small-scale <-> large scale mechanics– plasticity and fracture; temperature effects– “pure” materials– Dispersion strengthened materials– Radiation damaged materials
• Alloy stability under irradiation• Crack chemistry and fracture• Helium and radiation damage• Neutrons Ions ( Protons)?
![Page 4: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/4.jpg)
Irradiation effects
1-100 displacements per atom100’s ppm heliumTransmutation radioactivity
Fast neutron test reactor, hot cells
…or…
![Page 5: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/5.jpg)
Irradiation effects
1-100 displacements per atom100’s ppm heliumTransmutation radioactivity
Fe+ / W+
H+ , He+
2 - 30 MeV
~0.5 - 4 mm
Steel,Tungsten,….
![Page 6: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/6.jpg)
electrons
ions
![Page 7: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/7.jpg)
In-situ irradiation of Fe at 300°C
Dose increment: 6~10 dpa; viewed 40 x real time
25 nm
– these are interstitial loops with b = ½ [-111]
![Page 8: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/8.jpg)
Oxide – Dispersion - Strengthened alloys: radiation resistanceNo irradiation 0.5 dpa
1 dpa 2 dpa
Particles stable, and no radiation damage was visible below 1 dpa
ODS PM2000, RT irradiated with 150 keV Fe+, room temperature
![Page 9: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/9.jpg)
Atom-Probe: Radiation-induced clustering in Fe-Cr alloys
Implanted depth ~500-
1000nm
• FIB “lift out” preparation
(Fe not shown)
2nm thick slice
Clusters
Clusters only
post
Pt
Fe-Cr alloy
• Cr clustering observed in Fe-3%Cr (associated with C)
• Fe-3%Cr should be STABLE according to equilibrium phase diagram
• Cr clusters produce hardening and embrittlement
58nm
42 nm 42 nm
Fe-3at.%Cr alloy
Atom probe tip300°C, 2MeV Fe+ 1dpa
1mm
![Page 10: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/10.jpg)
Hardness (GPa)
Fe – x% Cr
Unimplanted
Low dose rate
High dose rate
Low dose rateHigh dose rate
Mechanical effects: dose rate
Low dose rate
High dose rate
At lower dose rate, Cr clusters form on dislocation loops- much greater hardening effect
![Page 11: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/11.jpg)
Irradiation effects in W: Nanoindentation
W+
2 MeV
He+
W+ W+
He+
He+unimplanted
W+
unimplanted
He+
W++He+
Hardness (GPa)
![Page 12: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/12.jpg)
Micro-mechanical Testing
50mm
Un-irradiated
Irradiated
FIB Milled Line
5 mm
Microcantilevers produced by Focussed Ion-Beam
![Page 13: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/13.jpg)
Micro-mechanical Testing: Tungsten
20mm
Unimplanted
W Implanted
W&He Implanted
Yield Stress(GPa)
2.0±0.9(4 Cantilevers)
3.1±0.7(4 Cantilevers)
3.1±0.7(7 Cantilevers)
Fracture Toughnes
s(MPa√m)
>29±12(0/2
Cantilevers)
>15±3(0/4
Cantilevers)
17(1/7
Cantilevers)
1mm
![Page 14: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/14.jpg)
Active Material: Fe-6%Cr N-irradiated to 1.7 dpa at 288°C, dose rate ~1 x 10-7 dpa/s
0.1mm
FIB work at CAES, Idaho
▫ 66 cantilever beams with depths from 0.82 to 7.3μm▫ Also made in
▫ Ion-irradiated Fe-6%Cr, same dpa & temperature
▫ Unirradiated
1mm
Activity: 37MBq
![Page 15: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/15.jpg)
0.00E+00
1.00E+09
2.00E+09
3.00E+09
4.00E+09
5.00E+09
6.00E+09
7.00E+09
0.000 1.000 2.000 3.000 4.000 5.000 6.000 7.000 8.000
Yiel
d St
ress
(Pa)
Beam Depth (μm)
Simple Yield Stress
Neutron Irradiated
Ion Irradiated
Un-Irradiated
Power (Neutron Irradiated)
Power (Ion Irradiated)
Power (Un-Irradiated)
Neutron-irradiated
Unirradiated
Ion-irradiated
Micromechanical testing Fe-6%Cr – yield stress
![Page 16: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/16.jpg)
-100°C +750°CWorld-unique
Si: 500°C
Si: 700°C
Micro-mechanical Testing: Temperature
![Page 17: “Materials for Fission & Fusion Power” Steve Roberts Sergei Dudarev CCFE George Smith Gordon Tatlock Liverpool Angus Wilkinson Patrick Grant Andrew Jones.](https://reader036.fdocuments.in/reader036/viewer/2022062804/56649f205503460f94c39482/html5/thumbnails/17.jpg)
Oxford Nuclear Materials: Capabilities
• Electron Microscopy– Defects & damage– Chemical microanalysis– In-situ with ion-beam,
heating
• Atom-probe tomography – Atomic-scale chemistry
• Focussed ion-beam sectioning– Selected local areas for
EM and APT
• Small-scale mechanics– Small active specimens– Thin ion-irradiated layers– -100°C to +750°C
• Modelling (with CCFE)– Defects– Mechanics– Transmutation paths
• Links to “radiation-effects” projects internationally– NNUF– NEUP/IRP– (FAFNIR), (TRITON)