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Press Release Archives - Amaero

Additive Manufactured Aerospike Rocket Engine

September 11th, 2017 by

Amaero Engineering in collaboration with a team of Monash engineering PhD students have designed, manufactured and test-fired a rocket engine.

Having successfully manufactured the world’s first additively manufactured jet engine Amaero approached the team with a challenge to design an engine that would fully utilise the near limitless geometric complexity of AM. “We were able to focus on the features that boost the engine’s performance, including the nozzle geometry and the embedded cooling network. These are normally balanced against the need to consider how on earth someone is going to manufacture such a complex piece of equipment. Not so with additive manufacturing” says Graham Bell, the project lead.

The unique aerospike design offers some unique advantages over its more conventional counterparts. “Traditional bell-shaped rockets, as seen on the Space Shuttle, work at peak efficiency at ground level. As they climb the flame spreads out reducing thrust. The aerospike design maintains its efficiency but is very hard to build using traditional technology,” says Marten Jurg, an engineer with Amaero. “Using additive manufacturing we can create complex designs, print them, test them, tweak them, and reprint them in days instead of months”.

Some additional facts about the engine:

  • The engine is a complex multi-chamber aerospike design
  • Additively manufactured with selective laser melting on an EOS M280
  • Built from Hasteloy X; a high strength nickel based superalloy
  • Fuel: compressed natural gas (methane); oxidiser: compressed oxygen
  • Design thrust of 4kN or about 1,000 pounds. This is enough to hover the equivalent of five people (around 400 kg)

The video below discusses the design and manufacturing in more detail as well as showing some of the successful test firings that have recently been completed. We hope you enjoy it.

The development of the aerospike rocket was supported by Monash University, Amaero Engineering, and Woodside Energy through the Woodside Innovation Centre at Monash. The Monash engineers have now created a company, NextAero, to take their concepts to the global aerospace industry, starting with the International Astronautical Congress in Adelaide on 25-29 September.

 


Monash University and Amaero Engineering Acquire Concept Xline 2000R

March 1st, 2017 by

Monash University Amaero Engineering are have invested in the Xline 2000R from Concept Laser. With a build volume of 800 x 400 x 500 mmÂł this is the largest metal 3D printer in the world thus far. The Xline 200R is one of five that have been manufactured to date and is the only unit outside of America and Europe.

“The new printer allows us to make large complex shapes and unique tools quicker, lighter and with less waste” –  Professor Xinhua Wu, who leads the Monash University 3D printing initiative has stated

The enormous printer has been put to work already, producing the largest metal aerospace component made with a powder bed 3D printer in the world. The aircraft hinge (pictured below) is from a Chinese jet airliner and measures 40 x 80 x 39 cm and weighs 11 kg.

Amaero CEO Barrie Finnin has said “This new printer creates promising opportunities for advanced manufacturing in Australia for global markets… …Last year, we printed production components that are now flying in passenger jets and small turbojet engines. Our technology is also now operating in our manufacturing facility in Toulouse with our partner Safran—the French-based global aerospace and defence company.

“Now we can literally go bigger. This new capability will be of great interest to our aerospace and automotive customers in Europe, North America, Asia and Australia.”

You can read more about the acquisition on 3DPrint.com here or learn more about the Concept Xline at the manufacturer’s website here.


Amaero Announces Strategic Partnership with Safran Power Units

November 9th, 2016 by

Amaero is proud to announce a strategic partnership with French aerospace company Safran Power Units for the printing of aerospace components.

Manufacturing capacity will be set up in Toulouse with Amaero providing EOS SLM 3D printing capability and their additive manufacturing expertise. Together with Monash University, Amaero has modified the printers enabling them to meet the stringent material and product specifications required by Safran Power Units for engine parts.

Safran Power Units will design the components and Amaero will manufacture them. The parts will then be delivered back to Safran who will post-process, machine and assemble them into gas turbines. This partnership comes after a successful demonstration of Amaero’s manufacturing capabilities where together with several partners they reproduced a Safran Power Units gas turbine jet engine from a Falcon 20 executive jet using metal 3D printing. This project validated that Amaero was capable of meeting the tough requirements of critical components such as the combustion chamber and nozzle.

Professor Ian Smith of Monash University said “I am delighted that Monash is contributing to global innovation and attracting business investment with our world-class research. The Amaero-Safran collaboration is a fabulous example of how universities and industry can link together to translate research into real commercial outcomes.”

Safran Power Units CEO, François Tarel, declared “We are committed to add tangible value to our products for the benefit of our customers. The stakes are high: weight reduction, huge production cycles shortening and designs innovation.  Safran Group advances and our partner leading-edge expertise allow us to stay ahead and to supply the most sophisticated components. This is not just a matter of 3D printing, the 3P rule applies: setting the right parameter for the right part and the right expected performance.”

You can read more about the strategic partnership in Safrans’ press release here.


Amaero Receives Entrepreneurs’ Programme Grant

January 19th, 2016 by

A $7.8 million investment in 17 innovative Australian companies will benefit the mining, information technology, renewable energy and advanced manufacturing industry sectors.  The latest funding offers announced today under the Australian Government’s Entrepreneurs’ Programme will see the companies receive grant offers between $69,000 and $1 million in commercialisation assistance, helping them to develop their products and services.

Amaero Engineering Pty Ltd (Amaero) has been offered a commercialisation grant under the Australian Government’s Entrepreneurs’ Programme to assist us in our commercialisation journey with Additive Manufacturing of  metal components for aerospace and defence applications.


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