We've spent years mastering the fundamental technologies for building and integrating any engine.
Advanced materials essential for withstanding extreme environments involving pressure, temperature, oxidation, or long-term storage.
Delivering optimal balance between thermal conductivity and high-temperature resistance, enabling efficient cooling of the engine's most heavily loaded components.
Applying different manufacturing techniques where they make the difference in achieving low-cost, high-quality components.
Laser powder bed fusion enables unparalleled design freedom for complex and optimized small to medium-sized parts.
We are experts in the fundamental technologies required to develop highly efficient rocket engines faster and more cost-effectively.
We are leaders in aerospike technology and have successfully tested the world's first methalox aerospike engine: altitude-compensating nozzles offering optimal efficiency across all altitudes. We are the pioneers in Europe in this field.
Continuously seeking compounds that deliver superior performance, reusability, and cost-effectiveness.
Ideal for reusable propulsion: high efficiency, clean combustion, and superior engine lifecycle performance. The sustainable propellant choice of today and tomorrow.
We accelerate engine development through integrated design, simulation, testing, and AI-powered tools.
Fast, iterative design cycles powered by simulation, AI tools, and agile methods enable us to explore, test, and refine ideas before production or more expensive testing. This approach helps us learn quickly, improve continuously, and move from concept to qualified propulsion systems faster.