SpaceCap supercapacitor series solves power problems
Supercapacitor technology is suitable for covering high power pulse loads to reduce strain on payload batteries and lower the amount of electrolytic and tantalum capacitors
Supercapacitor technology is suitable for covering high power pulse loads to reduce strain on payload batteries and lower the amount of electrolytic and tantalum capacitors
High-temperature-resistant, non-brittle, oxide ceramic fibre composite material (OCMC). Ideal for applications in oxidizing and corrosive media. High-temperature resistant, non-brittle, oxide ceramic Fiber Composite Material (OCMC).
In order to simulate the stresses experienced by the heat protection system of an spacecraft when entering the atmosphere of another planet on the ground,
The segmented X-ray mirrors of the planned giant space telescope XEUS (X-Ray Evolving Uni-verse Spectroscopy) are no longer to be individually polished, but manufactured using
In order to protect the surface of a design model against particles with high kinetic energy, it is chemically nickel-plated with the DURNI-COAT® process (DNC).
High-strength composite material for a wide range of high-temperature applications with a capacity of up to 2,800 °C in a vacuum or inert gas atmosphere
Innovative solid-state battery materials infiltrated in fiber-reinforced structures, which significantly reduces the mass and volume of satellites without loss of performance The idea behind Wall#E
TWTA-Travelling Wave Tube Amplifiers are broadband high frequency amplifiers. The main application is communication satellites, where they enable data communication in space. TWTA-Travelling Wave Tube
Where other welding processes reach their limits, the electron beam ensures optimum results through a highly efficient and simple tool for complex welding, hardening or
A short, cut, randomly aligned carbon fiber material characterized by high rigidity and mechanical strength, high thermal conductivity, a low coefficient of thermal expansion (CTE)