1 BROOKHAVEN SCIENCE ASSOCIATES N. Simos Brookhaven National Lab May 1-2, Oxford U., UK High Power Target R&D Simulations.

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Presentation transcript:

1 BROOKHAVEN SCIENCE ASSOCIATES N. Simos Brookhaven National Lab May 1-2, Oxford U., UK High Power Target R&D Simulations

2 BROOKHAVEN SCIENCE ASSOCIATES Exploring Eulerian-Lagrangian Formulation Capabilities of LS-DYNA Proton Beam - Hg Jet Interaction Experiment High velocity projectiles emanating from Hg target

3 BROOKHAVEN SCIENCE ASSOCIATES

4 Relevance to Hg Jet: Jet nozzle survivability

5 BROOKHAVEN SCIENCE ASSOCIATES Hg Explosion Simulations

6 BROOKHAVEN SCIENCE ASSOCIATES Hg explosions and Target Infrastructure

7 BROOKHAVEN SCIENCE ASSOCIATES

8 Superbeam Target Concept

9 BROOKHAVEN SCIENCE ASSOCIATES Overview of R&D Realized to-date on Solid Targets Target Shock Studies Radiation damage Studies

10 BROOKHAVEN SCIENCE ASSOCIATES Solid Targets

11 BROOKHAVEN SCIENCE ASSOCIATES Target Shock Studies

12 BROOKHAVEN SCIENCE ASSOCIATES Beam-induced shock on thin targets experiment prediction

13 BROOKHAVEN SCIENCE ASSOCIATES Pulse Structure

14 BROOKHAVEN SCIENCE ASSOCIATES Solid Target Shock Studies Graphite and Carbon composites super-alloys Materials “ appear ” more shock resilient than conventional estimates

15 BROOKHAVEN SCIENCE ASSOCIATES

16 BROOKHAVEN SCIENCE ASSOCIATES Thermal Conductivity 3-D CC (~ 0.2 dpa) conductivity reduces by a factor of D CC (~0.2 dpa) measured under irradiated conditions (to be compared with company data) Graphite (~0.2 dpa) conductivity reduces by a factor of 6 W (1+ dpa)  reduced by factor of ~4 Ta (1+ dpa)  ~ 40% reduction Ti-6Al-4V (~ 1dpa)  ~ 10% reduction

17 BROOKHAVEN SCIENCE ASSOCIATES Radiation Damage in Carbon-Carbon Composites

18 BROOKHAVEN SCIENCE ASSOCIATES Radiation Damage in Carbon-Carbon Composites and Graphite 3-D carbon 2-D carbon graphite [fluence ~10^21 p/cm2]

19 BROOKHAVEN SCIENCE ASSOCIATES “ annealing ” of super-Invar ONGOING 3rd irradiation phase: neutron exposure

20 BROOKHAVEN SCIENCE ASSOCIATES Radiation Damage of Super Alloy “ Gum ” metal As observed in other studies (AlMg-alloy) 0.2 dpa was enough to remove cold-work microstructure Enhancement of properties are attributed to the “dislocation-free” plastic deformation mechanism Super ductility completely disappears with irradiation

21 BROOKHAVEN SCIENCE ASSOCIATES Radiation Damage Studies – High-Z Materials Tantalum

22 BROOKHAVEN SCIENCE ASSOCIATES Tantalum

23 BROOKHAVEN SCIENCE ASSOCIATES Tungsten

24 BROOKHAVEN SCIENCE ASSOCIATES Tungsten

25 BROOKHAVEN SCIENCE ASSOCIATES NEXT STEP ? Focus on irradiation damage and thermal shock/fatigue of key components that could be the limiting factors in the lifetime of the overall experiments Appreciate the value of multi-physics based simulations for the engineering side of things (where actual limitations lie) and use them to push the envelope

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