Energy
UHTCMCs can unlock new operating regimes for energy systems by withstanding high temperatures, corrosive environment, and thermal cycling. In gas turbines, they may support hotter sections, liners, and shrouds where thermal stability is crucial to efficiency. For concentrated solar power, advanced burners, or high-temperature reactors (fusion mainly), UHTCMCs can serve as protective components, heat-exposed structures, and wear-resistant parts. Their thermal conductivity and tailored architectures can help manage heat flow and reduce thermal stresses especially where repeated thermal cycling is a limiting factor. Overall, they offer a route to higher efficiency, longer component life, and improved uptime in demanding energy environments.
K3RX (UHTCMC)
Flawless
Structure
Ultra-dense, with fibres perfectly aligned for maximum performance.
POWER
OF UHTCs
Up to 60% ultra-high-temperature phase for extreme resistance.
Made
to Measure
Properties engineered around your mission and your needs.
Fast
Consolidation
One-step densification through advanced sintering technology.
Sustainability
Water-based processing with reuse and recycling options.
Your Hi-Temp Ceramic Components
K3RX designs and manufactures tailor-made carbon–ceramic matrix composite components for ultra-high-temperature applications (UHTCMCs), engineered to meet the demanding requirements of the aerospace, defense, energy, automotive, and advanced refractory sectors.
Thanks to their outstanding resistance to extreme temperatures, thermal shock, and highly corrosive environments, K3RX’s UHTCMCs are ideally suited for propulsion systems, thermal protection solutions, high-efficiency power generation, and next-generation mobility technologies.
By combining exceptional thermal resistance with mechanical and structural reliability, K3RX components deliver high performance precisely where conventional materials reach their limits.
& Defence
Braking
Systems
Other
Industries