Pioneering Propulsion Innovation
Discover Our Cutting-Edge AI-Driven Technology
The aerospike engine is a next-generation rocket propulsion system built for efficiency across all altitudes. Unlike traditional bell-shaped nozzles that lose performance as air pressure drops, the aerospike uses a central, spike-like structure to shape and adapt its exhaust in real time. This self-adjusting design maintains optimal thrust from launch through space, making it more fuel-efficient, powerful, and versatile.
Its adaptive performance and compact geometry make the aerospike engine ideal for reusable launch vehicles, offering the perfect balance of efficiency, innovation, and cost-effectiveness for modern space access.
1
Regenerative & Film Cooling
We combine regenerative cooling—circulating propellant through internal engine channels to absorb heat—with film cooling, which lines the nozzle interior with a protective coolant layer. Together, they deliver superior thermal protection and extend engine life.
2
High-Performance Materials
We use a blend of nickel-based superalloys, carbon composites, and titanium alloys to withstand extreme heat and mechanical loads, ensuring every part is strong, lightweight, and durable.
3
Advanced Manufacturing
Our engines and components are produced using state-of-the-art methods:
• Additive manufacturing (3D printing) for complex, high-performance geometries
• Friction stir welding for robust structural joints
• CNC machining for precision-crafted parts
This approach accelerates prototyping, scales production, and enables faster iteration—driving innovation from the workshop to the launchpad.
Our launch vehicles are designed with reusability at their core—aiming to drastically reduce the cost of reaching space by flying the same systems again and again.
Unlike single-use rockets, reusable launch systems recover major components like boosters and stages for refurbishment and relaunch. Key features include:
• Recoverable stages with propulsive landing, parachute systems, or aerodynamic glide-back
• Advanced thermal protection and high-durability materials for multiple re-entries
• Precision landing tech, including grid fins, landing legs, and autonomous navigation
Our design philosophy focuses on modular architecture, rapid turnaround cycles, and minimal refurbishment—inspired by aircraft-style operations. The result? Lower cost per mission, higher launch cadence, and truly sustainable spaceflight.
