Australian aerospace start-up Hypersonix Launch Systems is planning to build a hypersonic, hydrogen-fuelled "spaceplane" that will be capable of sending small satellites into Earth's orbit. Aside from attempting a breakthrough in the industry by creating the first carbon emission-free spacecraft, Hypersonix is also planning to build most of the parts, including the engine, using advanced 3D printers at the University of Sydney.
The engineering team of Professor Simon Ringer from the University of Sydney will be helping the start-up by manufacturing flight-critical parts for the fuselage and the scramjet engine for the spacecraft "Delta Velos". According to Ringer, advanced 3D printers using additive manufacturing technology (producing parts layer-by-layer using special dust-like material) offer numerous advantages.
"You can suddenly take things off the blueprint and off the design chart. We can build shapes and designs in 3D that we could never make before. This is a totally new way of making metallurgical materials".
Ringer further explained that with the 3D printers at the University of Sydney's Darlington campus it is possible to combine elements from the periodic table into new alloys. These alloys, in turn, may possess properties useful to the aerospace industry, such as "high-temperature strength".
Maiden Flight in 2023?
Before launching production of the full-scale spaceplanes, Hypersonix plans to build a series of smaller proof-of-concept space vehicles using the same hydrogen-powered engines. The final Delta Velos will fly using six of them, but the test prototypes will rely on a single engine and will have a flight distance of only 500 kilometres.