UHTCMC
type Beta
This material system combines the extreme thermal resilience and design freedom. Thanks to the pyrolysis technique, we can shape the material into complex geometries, curved surfaces, and details that other manufacturing methods cannot achieve.
Material Comparison
UHTCMCs are a unique and patented family of products that offers: increased heat
resistance, enhanced durability, and improved erosion/ablation resistance.
Tungsten
(Metal)
Extreme resistance
to temperature
Heavy and vulnerable
to oxidation
Carbon_Carbon
(C/C)
Extreme mechanical
resistance and lightweight
Powerless against oxygen
without protection
Ceramic Matrix Composite (CMC)
Tough, shock-resistant
and reliable
Maximum operational temperature 1600°C
K3RX (UHTCMC)
Great Property Combination
Lightweight < 4 g/cm3
Limit temperature > 2500 °C
Oxidation in air up to 2200 °C, 30 min
Ablation resistance up to 2400 °C for min
Mechanical resistance 0.4 GPa
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.
Technology in brief
We offer two cutting-edge technologies
to ensure the highest flexibility in your applications.
