With its heritage systems - Atlas and Delta - United Launch Alliance (ULA) has supported America's presence in space for more than 50 years. Like other leading edge manufacturers using 3D printing, ULA progressed from prototyping to tooling and then to flight hardware production.
|ULA will 3D print flight-ready components for its launch vehicles.|
|ULA selected Ultem 9085 for its ability to withstand a wide range of extreme temperatures. It is being used in an environmental control system duct.|
After acquiring two Fortus 900mc 3D Production Systems from Stratasys, ULA began the process of updating the environmental control system (ECS) duct on the Atlas V, which will launch with the new 3D component in 2016. The ECS duct is critical to the countdown sequence of a launch, delivering nitrogen to sensitive electronic components within the rocket booster.
The previous design for the ECS duct assembly contained 140 parts, but by modifying the design using FDM 3D Printing Technology, ULA consolidated the number of parts to only 16. This significantly reduces installation time and results in a 57 percent part-cost reduction.
ULA selected Ultem 9085 FDM polyetherimide (PEI) thermoplastic material to produce durable, high-performance end-use parts. "Ultem 9085 has great strength properties over a wide temperature range," said Greg Arend, Program Manager for Additive Manufacturing at ULA. "We have done testing to show that it is very capable of withstanding temperatures from cryogenic all the way up to extreme heat. And it's tough enough to handle the vibration and stress of lift off and flight. We're very satisfied with its performance."
The Atlas V won't likely be the last launch vehicle incorporating 3D printing technology. ULA has ambitious plans to increase the quantity of 3D printed parts to over 100 on the next generation rocket.
"We see somewhat of an exponential growth in the utility of 3D printing for flight applications on our current vehicles," said Arend. "And we intend to use it heavily with our Vulcan rocket."
Making launch vehicles for NASA, the Air Force and commercial satellites, on the lower-end, ULA's rockets cost a cool $165 million. And they must propel into space billion-dollar satellites weighing more than 60,000 pounds.
"It's about as demanding an application as you can get," says Rich Garrity, VP and General Manager Vertical Solutions Unit for Additive Manufacturing system maker Stratasys Ltd. "Rockets must endure pressure, G-force, speed, vibration, heat, and extreme cold."