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Innovations

The 3D-UltraTM Hybrid Rocket Engine provides a new level of sophistication in rocket propulsion.

Strategic Advantages

Firehawk’s advanced hybrid rocket engines provide numerous innovations that surpass conventional rocket motors’ boundaries in defense and aerospace.

The premier advantage of the Firehawk hybrid propellant rocket engine is dynamic throttle control with rapid shutdown and restart. This unique capability can be used for custom mission tailoring on a case-by-case level.
Firehawk's Hybrid Rocket Engines are designed to enable new types of engagements, including maneuvering and precise course corrections – allowing defensive systems to intercept fast-moving targets.
Firehawk’s hybrid rocket engines deliver more effective energy management over traditional propulsion elements to maximize range while maintaining – or improving – accuracy and lethality.
Our fuel grains are built with zero TNT equivalency – essentially eliminating the risk of accidental detonations and providing an insensitive, fieldable, and long-term storable propulsion system.

The Firehawk hybrid rocket engine manufacturing process can be completed in four to six months at 1/10th the cost of traditional rockets – making the 3D-Ultra™ Hybrid Rocket Engine the most scalable product in the defense and aerospace market.

Strategic Advantages

Firehawk’s advanced hybrid rocket engines provide numerous innovations that surpass the boundaries of conventional rocket motors in both defense and aerospace.

The premier advantage of the Firehawk hybrid propellant rocket engine is throttling capabilities and rapid shutdown/restart effectiveness – enabled by a cutting liquid oxidizer. This new proficiency can be used for custom mission tailoring on a case-by-case level. 

The 3D-Ultra™ Hybrid Rocket Engine is specially designed and manufactured to provide precise course corrections – allowing interceptor weapon systems to pinpoint fast-moving targets. 

Firehawk’s hybrid rocket engines deliver performance upgrades over traditional rockets to maximize range capabilities while maintaining – or improving – accuracy and lethality. 

Our contemporary fuel systems are built with zero TNT equivalency – essentially eliminating the risk of accidental detonations and severe injuries. 

The Firehawk hybrid rocket engine manufacturing process can be completed in four to six months at 1/10th the cost of traditional rockets – making the 3D-Ultra™ Hybrid Rocket Engine the most scalable product in the defense and aerospace market.

New Propulsion Technology

Firehawk Aerospace designs next-generation rocket systems that redefine the standards of safety, reliability, performance, and environmental impact.

3D-Ultra Hybrid Rocket Engine Design & Operation

Firehawk’s new propulsion technology combines the best features of traditional hybrid rocket engines with innovative fuel grain designed for limitless scalability.

Machine:

MAAM (Medium Area Additive Manufacturing) is an industrial sized additive machine built for production manufacturing.

Grain:

Additively manufactured rocket fuel

Patent-protected Additive Fuel Production System

Delivering unprecedented capabilities and mission flexibility. Firehawk hybrids enable:

  • Precise Mission Tailoring
  • Customizable Thrust Profiles
  • Long-Term Storage
  • Enhanced Engine Efficiency
  • Reliable Deep-Throttle Capability
  • Cost-Effective Manufacturing

Patent-protected Additive Fuel Production System

Delivering unprecedented boost-to-glide-to-boost capabilities. The mechanical design of the Firehawk hybrid engine delivers:

  • Reliable Deep-Throttle Capability
  • Cost-Effective Manufacturing Repeatability
  • Long-Term Storage
  • Improved Regression Rate
  • Customizable Mission Thrust Profile
  • Complete Control Over Fuel Oxidizer Interfaces
  • High Regression Rate
  • Enhanced Engine Efficiency
  • Precise Mission Tailoring

Let’s Create The Rocket System of the Future

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