Kronos Fusion Energy Incorporated is at the forefront of developing advanced aneutronic fusion technology, aiming to achieve a fusion energy gain factor (Q) of 40. Our mission is to provide clean, limitless energy solutions for industrial, urban, and remote applications.
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.