Providing seamless access to microgravity for any mission duration – from quick experiments to long-term operations.
Redefining space operations. Our orbital shuttle brings high-value payloads back to Earth, unlocking the full potential of long-
duration microgravity. Fully reusable, it empowers industries to push the boundaries of space manufacturing and research like never before.
Innovation starts here. Our suborbital demonstrator is the gateway to orbital breakthroughs—offering minutes of microgravity for cutting-edge experiments and early-stage developments. A game-changing step toward the future of in-space manufacturing.
At AndroMach, we develop spaceplanes to leverage microgravity for research, testing, and production.
We cover the entire spectrum of microgravity applications, from short to long durations.
In addition, our vehicles serve as true test platforms, supporting your project from the R&D development phase to industrial deployment.
Amortize costs and minimize environmental impact throughout its lifecycle.
From quick suborbital flights to long-duration orbital missions.
Designed to offer each customer their own mission, reducing lead• One Key Steptimes and accelerating innovation cycles.
Land payloads directly on a runway near existing logistics hubs —no remote recoveries, no delays.
Microgravity enables groundbreaking research across multiple fields.
In biotechnology, it advances space agriculture and revolutionizes tissue engineering, notably through 3D bioprinting.
In medicine, it enhances cell biology and gene expression studies, improving disease modeling and aging research.
In pharmaceuticals, it enables purer protein crystallization, drug encapsulation, and optimized formulations for greater stability and effectiveness.
In fundamental physics, it deepens our understanding of fluid dynamics, combustion, and reaction chemistry.
These unique conditions drive innovation in health, materials science, and space exploration.
Decades of microgravity research have paved the way for in-orbit manufacturing, now set to transform key industries.
The most promising applications lie in pharmaceuticals, biotechnology, cosmetics, and agriculture, where microgravity enables breakthroughs impossible on Earth.
Emerging fields such as ultra-pure optical fibers, semiconductors, and advanced materials are also gaining momentum.
Robotic space factories will produce these high-value innovations before their return to Earth via reentry vehicles — marking the beginning of a new industrial revolution beyond our planet.
Our platforms are true flying test benches, essential for increasing the TRL of aerospace technologies by testing them in real-world conditions.
They enable in-orbit validation and demonstration (IOV/IOD) of satellite components, communication systems, propulsion technologies, and more — thus facilitating full space qualification.
We can go even further by serving as a vector for debris recovery, in-orbit assembly and welding technologies, and by enhancing reentry systems for future space infrastructure.
Finally, these platforms support research in hypersonic environments, enable high-altitude drops, and advance atmospheric studies.
The militarization of space and the upper atmosphere is accelerating, driving demand for advanced aerospace platforms.
Hypersonic and hypermaneuverable vehicles are becoming critical assets, offering unprecedented speed, agility, and operational reach.
There is a growing need for responsive, long-duration platforms capable of executing diverse missions in contested environments.
These next-generation systems will play a key role in securing strategic advantages, enhancing global situational awareness, and ensuring rapid deployment capabilities in an increasingly complex defense landscape.
