Aerospace
We are currently building the foundation to design and engineer advanced components and subsystems for aerospace applications, with a future focus on reusable, reliable, and cost-efficient systems that meet modern space technology requirements.
Subsystems
Our aerospace subsystems are currently in development. At the appropriate maturity level, we plan to develop and qualify them in line with EN 9100 / AS9100 (IAQG 9100 series, based on ISO 9001). The focus is on reusable, reliable, and cost-efficient solutions.
Manufacturing method
Development of a manufacturing method for producing high-temperature-resistant components, such as combustion chambers or exhaust nozzles. An initial prototype has already been tested, providing the basis for further development.
Actuators
Electric actuators for aerospace applications, designed for precise linear motion and reliable operation. Configurable interfaces and sensing options support integration into adjustment, positioning, and locking functions.
Low thrust engines
In future, we also want to develop low-thrust propulsion systems for attitude control and orbital manoeuvres in the upper stage. The focus will be on repeatability, precise thrust control and reliable operation.
Seperation Systems
Separation systems for stage and payload separation are currently in development, with a focus on reusability and cost-efficient operation.
Valve Actuator
Electric valve actuators for cryogenic liquid and gas applications are currently under development to enable precise and reliable valve control. Configurable interfaces and feedback options support easy integration.
Coating technology
Build and test new coarting machine for aerospace application with inhouse developed and build electro-mechanical-arm.
Prototyping
As part of an high school graduation project, we implemented an initial prototype of the method as a feasibility study. The experience gained from this will be incorporated into a second prototype.
Heat-resistant elements
Developing a production demonstration plant to manufacture and coat extremely temperature-resistant up to 2800°C, thrust chamber and nozzle elements.
Testing materials
Materials intended for engine and shielding applications must undergo rigorous testing for heat resistance and oxidation stability.
These evaluations ensure reliable performance under extreme thermal loads and harsh environmental conditions, which is essential for high-performance propulsion and advanced protective systems.
