Rocket Lab, the global leader in dedicated small satellite launch, is celebrating completion of the companyโ€™s 100th Rutherford engine.

Rocket Lab began development on the worldโ€™s first 3D printed, electric turbo-pump fed engine in 2013. Within the same year, Rutherford was test fired for the first time, marking the beginning of a new generation in rocket propulsion. Today, 70 Rutherford engines have been launched to space on Electron missions, the most recent being the โ€˜Make It Rainโ€™ mission launched on 29 June 2019 from Rocket Lab Launch Complex 1.

Rocket Lab CEO Peter Beck says Rutherfordโ€™s unique 3D printed design was developed with the single-minded goal of producing a reliable and high-performing rocket engine that could be manufactured quickly, efficiently and in high-volumes.

โ€œThe Rutherford engine has played an integral part in enabling Rocket Lab to make frequent and reliable launch a reality for small satellites,โ€ says Mr. Beck. โ€œItโ€™s a testament to our innovative design and manufacturing teams that weโ€™ve achieved everything we set out to do in just a few short years; an entirely new type of rocket engine that delivers unmatched performance, boasts a proven record of 100% launch reliability and can be manufactured quickly and efficiently.โ€

Rocket Labโ€™s Vice President of Propulsion Lachlan Matchett has led the Rutherford engine program since its inception, and later played an integral role in the development of Curie, the 3D printed propulsion system on Electronโ€™s innovative Kick Stage.ย 

โ€œRutherfordโ€™s unique design certainly went against the grain of traditional rocket propulsion systems, so to make it to 100 flight-ready engines, more than 28,000 seconds of engine test run time and seven successful launches is a proud moment for the team,โ€ says Mr. Matchett.ย 

To meet a growing launch manifest, Rocket Lab has recently expanded its propulsion manufacturing and test teams, and also increased its 3D printing facilities in Huntington Beach to produce 200 Rutherford engines in the next 12 months. The engines will be integrated onto Electron vehicles for lift-off from Launch Complex 1 in New Zealand, as well as Launch Complex 2 at the Mid-Atlantic Regional Spaceport in Wallops Island, Virginia USA.

About the Rutherford engine:

Weighing just 35 kg each, Rocket Labโ€™s Rutherford engines are the worldโ€™s first 3D printed and electric pump-fed engines to be launched to space. The engine is named after New Zealand physicist Ernest Rutherford, a Nobel laureate famous for his work in discovering radioactive half-life and being the first to split the atom.

The Rutherford engineโ€™s production scalability is facilitated by additively manufactured, or 3D printed, primary components. With a 3D printed combustion chamber, injectors, pumps, and main propellant valves, Rutherford has the most 3D printed components of any rocket engine in the world. These primary components can be printed in 24 hours, drastically reducing production timelines.

Rutherford engines are used as both a first stage and as a second stage engine, with sea level versions on Electronโ€™s first stage producing 24 kN (5,500 lbf) of thrust and has a specific impulse of 311 s (3.05 km/s), while the vacuum optimized version operating on Electronโ€™s second stage produces a max thrust of 24 kN (5,500 lbf) of thrust and has a specific impulse of 343 s (3.36 km/s). There are nine Rutherford engines on Electronโ€™s first stage and a single vacuum optimized version on the second stage.

Instead of being powered by traditional gas turbine pumps, Rutherford uses an entirely new propulsion cycle of brushless DC electric motors and high-performance lithium polymer batteries to drive its propellant pumps. This cuts down on much of the complex turbomachinery typically required for gas generator cycle engines, meaning that the Rutherford is simpler to build than a traditional engine but still can achieve 90% efficiency.

Rutherford engines are manufactured at Rocket Labโ€™s headquarters in Huntington Beach, California, USA. They are shipped to Rocket Labโ€™s New Zealand facilities for testing before integration with the Electron launch vehicle and eventual launch from Rocket Labโ€™s private orbital launch facility, Launch Complex-1, on the Mฤhia Peninsula.

About Rocket Lab:

Rocket Lab is the worldโ€™s leading small satellite launch provider. Founded in 2006, Rocket Lab provides end-to-end mission services, including complete satellite build and launch solutions, that provide rapid, frequent and reliable access to space. Since its first orbital launch in January 2018, Rocket Lab has delivered 35 satellites to orbit on the Electron launch vehicle, enabling operations in space debris mitigation, Earth observation, ship and airplane tracking, and radio communications. Headquartered in Huntington Beach, California, Rocket Lab designs and manufactures the Electron launch vehicle, a full carbon-composite launch vehicle tailored for small satellites. Rocket Lab operates launch sites in Mฤhia, New Zealand and Wallops Island, Virginia. To learn more, visit www.rocketlabusa.com.