3.5. Materials Development and Test Introduction Materials R&D for ...

More documents

Recommendations

Info

Review of the ITER Technology R&D 3.5 Materials Development and Test 700 600 316L(N)-IG, min s-HIP (entek, RF) s-HIP (JAERI, JA) p-HIP (entek, RF) p-HIP (Studsvik, EU) 316L(N)-IG, av s-HIP (SEA, EU) s-HIP (SGM/GRE, EU) p-HIP (CEA) cast+HIP (Boeing, US) 500 400 300 UTS YS 200 100 0 0 100 200 300 400 500 600 Temperature, °C Fig. 1. Summary of tensile tests performed in different laboratories (UTS - ultimate tensile strength, YS - yield strength) Fusion Engineering and Design Page 30
Review of the ITER Technology R&D 3.5 Materials Development and Test 600 500 CuAl25-IG, T-L (OMG) CuAl25-IG, T-L (ORNL) CuAl25-IG, T-L (VTT) CuCrZr-IG, T-L (ORNL) CuCrZr-IG, T-L (VTT) CuAl25-IG, L-T (OMG) CuAl25-IG, L-T (ORNL) CuAl25-IG, L-T (VTT) CuCrZr-IG, L-T (ORNL) CuCrZr-IG, L-T (VTT) 400 300 200 100 0 0 100 200 300 400 Temperature, °C Fig. 2. Fracture toughness (J Q value) of unirradiated Cu alloys. (T and L is transverse and longitudinal directions, respectively, indicating tension and crack propagation relative to the rolling direction of plate. References in figure: OMG [19], ORNL [21], VTT [22, 23]). 50 40 30 20 10 0 Average, unirradiated R. Chaouadi, 1-2.5 dpa L.Snead, 0.34 dpa M.Roedig, 0.35 dpa Ttest=Tirrad 0 200 400 600 800 Temperature, °C 50 45 40 35 30 25 20 15 10 5 0 Fig. 3. Change of the total elongation of the Be S-65C VHP after neutron irradiation [39, 40, 42] Fusion Engineering and Design Page 31
Page 1 and 2: Review of the ITER Technology R&D 3
Page 29: Review of the ITER Technology R&D 3
Page 35: Review of the ITER Technology R&D 3

3.5. Materials Development and Test Introduction Materials R&D for ...

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?