3.5. Materials Development and Test Introduction Materials R&D for ...
3.5. Materials Development and Test Introduction Materials R&D for ...
3.5. Materials Development and Test Introduction Materials R&D for ...
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Review of the ITER Technology R&D<br />
3.5 <strong>Materials</strong> <strong>Development</strong> <strong>and</strong> <strong>Test</strong><br />
700<br />
600<br />
316L(N)-IG, min<br />
s-HIP (entek, RF)<br />
s-HIP (JAERI, JA)<br />
p-HIP (entek, RF)<br />
p-HIP (Studsvik, EU)<br />
316L(N)-IG, av<br />
s-HIP (SEA, EU)<br />
s-HIP (SGM/GRE, EU)<br />
p-HIP (CEA)<br />
cast+HIP (Boeing, US)<br />
500<br />
400<br />
300<br />
UTS<br />
YS<br />
200<br />
100<br />
0<br />
0 100 200 300 400 500 600<br />
Temperature, °C<br />
Fig. 1. Summary of tensile tests per<strong>for</strong>med in different laboratories (UTS - ultimate tensile<br />
strength, YS - yield strength)<br />
Fusion Engineering <strong>and</strong> Design Page 30