Blanket Modules (BD-BM-098): High-performance modules that absorb neutrons and produce tritium, essential for sustaining fusion reactions. Designed for high efficiency and durability, using advanced materials and engineering to ensure reliable operation. Ensure efficient tritium production and neutron absorption.

Divertor Components (BD-DC-099): Components that remove impurities and control heat loads in the reactor, ensuring stable plasma conditions. Made from materials with high thermal and erosion resistance, providing reliable and efficient operation. Ensure stable plasma conditions by removing impurities and controlling heat loads.

Plasma-Facing Components (BD-PFC-100): Components designed to withstand the extreme conditions of the plasma edge, including high temperatures and intense particle fluxes. Made from advanced materials like tungsten and beryllium, providing durability and performance. Withstand extreme conditions at the plasma edge.

Advanced Materials for High Heat Flux (BD-AMHHF-101): Materials that can endure high heat fluxes, such as carbon composites and refractory metals, ensuring longevity and reliability in demanding environments. Designed to dissipate heat efficiently, providing stable operation. Ensure longevity and reliability in high heat flux environments.

Erosion-Resistant Materials (BD-ERM-102): Materials designed to resist erosion caused by plasma interactions, ensuring long-term performance and minimal maintenance. Include advanced ceramics and coatings, providing high durability and performance. Resist erosion and ensure long-term performance.

Thermal Fatigue-Resistant Components (BD-TFRC-103): Components that can withstand thermal cycling without degradation, ensuring durability and stability. Made from materials with high thermal conductivity and low thermal expansion, providing reliable operation. Withstand thermal cycling and ensure durability and stability.

Component Lifecycle Management (BD-CLM-104): Systems for managing the lifecycle of components, including monitoring, maintenance, and replacement schedules. Ensure optimal performance and longevity, enhancing reliability and efficiency. Manage the lifecycle of components for optimal performance and longevity.