Aerospace AMCase StudiesIndustrial Additive ManufacturingItalyMetal Additive Manufacturing

GE Avio Aero Metal AM Factory is changing the face of aircraft engine manufacturing

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Ever since Avio Aero opened an AM factory on the edge of Cameri, a small town near Turin, in Northern Italy, three years ago — the most advanced of its kind in Europe — a steady flow of engineers and executives have streamed in to witness the future of how we will make things. “This factory has helped us understand what the art of the possible is with additive manufacturing,” David Joyce, president and CEO of GE Aviation, said during a recent visit. “This is the cutting edge.” GE Aviation acquired Avio Aero in 2013 to establish the GE Avio Aero Metal AM Factory.

Additive technologies like 3D printing are revolutionizing manufacturing in much the same way the internet transformed information and shopping. Instead of removing material, these techniques grow parts from the ground up by either depositing or fusing layers of material. Engineers can design parts on their computers and then send their drawings directly to a 3D printer. The machines break down the design files to individual layers and join them together in the right pattern. “There are no limits to complexity,” says Dario Mantegazza, an Avio Aero manufacturing engineer in Cameri. “You can create hollow structures if you want, or something like a bone.”

Cameri is a key piece of GE’s additive manufacturing business strategy. There are facilities in Germany and Sweden, where GE Aviation acquired majority stakes in the 3D-printing machine makers Concept Laser and Arcam last fall. In the U.S., additive is thriving in Cincinnati, home of the additive manufacturing pioneer Morris Technologies — now also part of Joyce’s business — and Auburn, Alabama, where GE Aviation has another 3D-printing factory. “Italy and Avio Aero will be at the center of the growth of our additive ecosystem,” Joyce said.

GE Avio Aero Metal AM Factory
TiAl powder and finsihed components inside an Arcam 3D printer in Cameri, Italy. “There are no limits to complexity,” says Dario Mantegazza. Image credit: Avio Aero

That’s because the Cameri plant is special. The typical palette of materials used for 3D printing can range in complexity from simple plastics to advanced superalloys. For example, the, Auburn factory’s direct metal laser melting (DMLM) machines create jet engine fuel nozzles by fusing layers of fine metal powder with a powerful laser. Each layer is between 20 and 80 microns thick — thinner than a human hair — and 1 inch of printed material can contain up to 1,250 layers. Planes powered by jet engines that use these fuel nozzles already are ferrying passengers across Europe and Asia.

The Cameri plant, however, uses 20 machines developed by Arcam. They use an electron beam to fuse together layers of a wonder material called titanium aluminide (TiAl), which is 50 percent lighter than nickel-based alloys. Mantegazza and his colleagues are using it to print blades for the low-pressure turbine of the GE9X jet engine, the largest jet engine ever built.

The Arcam machines use an electron gun to accelerate the beam until it’s several times more powerful than lasers currently used for printing metal parts. As a result, Mantegazza and his colleagues can build blades from layers that are more than four times thicker than those used by laser-powered 3D printers. They say the method is so fast that it’s competitive with casting, the standard way to make parts from TiAl.

GE Avio Aero Metal AM Factory
A pair of Arcam machines at Avio Aero’s additive manufacturing factory in Cameri. “This factory has helped us understand what the art of the possible is with additive manufacturing,” David Joyce, president and CEO of GE Aviation, said during a recent visit. “This is the cutting edge.” Image credit: Avio Aero

The team also can change the shape of the parts and print different blades at the same time on the same machine. “You have the ultimate manufacturing freedom,” Mantegazza says.

But printing is just the first step in the additive manufacturing process. Once the turbine blades are printed in Cameri, they travel south to Pomigliano d’Arco, an industrial suburb of Naples located at the foot of Mount Vesuvius. Pomigliano has long been home to one of Avio Aero’s largest factories. Today, it’s also one of GE Aviation’s “centers of excellence,” where engineers are testing the best and fastest ways to finish 3D-printed parts and prepare them for production. The parts include the blades from Cameri as well as components for an advanced turboprop engine (ATP), which is using more additive parts than any other engine in GE Aviation’s history. Additive manufacturing has enabled designers to consolidate some 800 parts into just a dozen components. In total, some 35 percent of the engine will be “printed,” says Carlo Silvestro, an engineering manager in at the Pomigliano plant.

GE Avio Aero Metal AM Factory

The reduction in complexity will help decrease the engine’s fuel burn by up to 20 percent and lower its weight while achieving 10 percent more power and helping speed up production. Silvestro and his team are designing the best ways to finish large and complex printed parts like the ATP combustor. “This is the first time we are doing something like this,” he says.

While Avio Aero is developing next-generation additive technology, it’s also grooming the next generation of scientists. The Polytechnic University of Turin, located partially in a remodeled locomotive repair shop near the center of the Northern Italian city, has been a steady supplier of talent to GE. (Mantegazza is a graduate.) But it’s also part of Avio Aero’s research network that includes about 20 technical universities across Italy and a number of companies.

Franco Tortarolo, who runs research programs at Avio Aero, says the Turin polytechnic, for example, helped his company master the electron beam technology that’s now inside the Cameri factory. The school will now open a new research lab on the Turin campus this year focusing on new materials for printing and test new machines. “Additive manufacturing is the most exciting technology today,” Tortarolo says. “If Leonardo da Vinci could see what we are doing, he would be proud.”

GE Avio Aero Metal AM Factory
The low-pressure turbine blades for the GE9X jet engine were printed in Cameri and finished in Pomigliano. Image credit: Avio Aero

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