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HIGH-PERFORMANCE MATERIALS

  • High-Temperature Alloys (Inconel, Hastelloy) (HPM-HTA-001): Alloys with high strength and corrosion resistance at elevated temperatures, used in critical components exposed to extreme environments, ensuring long-term durability and performance.


  • Neutron Reflectors (Beryllium, Graphite) (HPM-NR-002): Materials that enhance neutron economy in the reactor, reflecting neutrons back into the plasma to sustain fusion reactions, improving overall reactor efficiency.


  • Silicon Carbide (SiC) (HPM-SiC-003): Used in control rods and as a structural material, providing high thermal conductivity and low neutron activation, ensuring the stability and efficiency of the reactor.


  • Advanced Ceramics (Alumina, Zirconia) (HPM-AC-004): High-performance ceramics with exceptional mechanical, thermal, and chemical properties, used in applications requiring high wear resistance and thermal stability, supporting the reactor's critical components.


  • Metal Hydrides (Zirconium Hydride, Titanium Hydride) (HPM-MH-005): Used for hydrogen storage and moderation in fusion reactors, these materials provide efficient hydrogen management, crucial for sustaining fusion reactions.

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