NASA Says Its Future Rocket Engines May Be 3D Printed
3D printing, also known as additive manufacturing, is showing up everywhere nowadays from 3D printed meals to 3D printed human organs to 3D printed homes. Now, NASA has announced it will use the practice to build its future rockets.
The project is called Rapid Analysis and Manufacturing Propulsion Technology, or RAMPT, and it is seeking to engineer an additive manufacturing technique for producing 3D printed rocket engine parts using metal powder and lasers. The novel method, called blown powder directed energy deposition, comes with many advantages including reduced costs and lead times.
"This technology advancement is significant, as it allows us to produce the most difficult and expensive rocket engine parts for a lower price tag than in the past," said Drew Hope, manager of NASA’s Game Changing Development Program, which funds the RAMPT project.
"Further, it will allow companies within and outside of the aerospace industry to do the same and apply this manufacturing technology to the medical, transportation, and infrastructure industries."
The new fabrication method is particularly adept at delivering very large pieces, that are limited only by the size of the room in which they are produced, and very complex parts. These include engine nozzles with internal coolant channels.
"It’s a challenging process to manufacture the nozzles traditionally, and it can take a very long time,” said Paul Gradl, RAMPT co-principal investigator at NASA's Marshall Space Flight Center in Huntsville, Alabama.
“Blown powder directed energy deposition additive manufacturing allows us to create very large-scale components with complex internal features that were not previously possible. We’re able to significantly reduce the time and the cost associated with the fabrication of channel-cooled nozzles and other critical rocket components."
The RAMPT team recently 3D printed one of the largest nozzles ever. The end result measured 40 inches (101.6 cm) in diameter and stood 38 inches (96.5 cm) tall. We can't wait to see what they'll achieve next!
An exclusive interview with Rice University researchers sheds light on engineered bacteria that signal the presence of water contaminants in minutes.