GE Aviation has managed to build a jet engine using entirely 3D-printed parts. While this engine may not be powerful enough to power a flight across the Atlantic ocean, it's still an impressive feat of engineering that bodes well for the future.
This engine is a foot long and 8 inches tall, and was constructed at GE Aviation's Additive Development Center just outside Cincinatti. Admittedly a side project, the engine took several years of work to make, and the whole purpose of the project was to test the printing technology. This engine has been fired and revved up to 33,000 RPM.
The reason this engine features a fairly simple design has to do with the fact that the current state of 3D-printing technology doesn't allow for the creation of complicated commercial engines. Therefore, the engineers and designers chose an engine design more suited towards things like remote control model planes, and modified it so it could be manifested using Direct Laser Metal Melting printing.
3D-Printed Jet Engines
GE Aviation's Engine is Made Entirely Out of 3D-Printed Parts
Trend Themes
1. 3d-printed Engine Parts - Using 3D-printing technology to create engine parts presents opportunities for more efficient and cost-effective manufacturing.
2. Direct Laser Metal Melting Printing - The improvement of Direct Laser Metal Melting printing technology could lead to the creation of more complex 3D-printed objects.
3. Miniature Jet Engines - The creation of miniature 3D-printed jet engines has potential for use in unmanned aerial vehicles (UAVs) and drones.
Industry Implications
1. Aviation - The aviation industry could benefit from the use of 3D-printing technology to improve manufacturing efficiency and reduce costs.
2. Manufacturing - The use of 3D-printing technology in manufacturing presents opportunities for more streamlined and agile production processes.
3. Defense - The creation of miniature 3D-printed jet engines could potentially enhance the capabilities of unmanned aerial vehicles used in defense applications.