Argive, a division of Alloyed, designs and manufactures high-performance turbojets for a wide range of propulsion applications, from aerospace and UAVs to next-generation mobility platforms. By integrating Alloyed’s proprietary additive manufacturing (AM) technologies, digital design tools, and a best-in-class suite of high-temperature alloys unlocked using ABD®, Argive delivers compact, efficient, and cost-effective microturbines that push the boundaries of conventional propulsion, all designed in the UK.
With dedicated testing facilities, a variety of simulation approaches, and a range of assets for in-house manufacturing, Argive's development process is built for speed, precision, and reliability. A focus on experimental testing ensures robustness and repeatability across operating conditions, while the integration of digital design and AM enables an exceptionally fast iteration cycle, down to just 7 days from design release to tested prototype.
Key Capabilities
- Advanced Microturbine Design: High-performance turbojets engineered for aerospace, UAV, and next-generation mobility platforms.
- Additive Manufacturing Integration: Utilises Alloyed’s proprietary AM processes and digital design tools for unmatched design freedom and efficiency.
- High-Temperature Materials Expertise: Employs ABD®-enabled alloy systems to achieve superior strength, thermal performance, and durability.
- Rapid Development Cycle: Accelerated design-to-test workflow capable of producing and validating new prototypes within 7 days.
- Scalable System Architecture: Simple, modular engine designs spanning 60–240 mm outer diameters, adaptable across a range of thrust classes.
- Reduced Complexity and Cost: Drastically lower part count and optimised manufacturing routes enable high reliability and cost-effective production at scale.
- In-House Testing & Validation: Dedicated test facilities and experimental campaigns ensure robustness and repeatability across all operating regimes.
- Digital-First Development: Simulation-driven design tightly coupled with additive manufacturing feedback for continuous performance improvement.