AI
| Followers | 9 |
| Posts | 1597 |
| Boards Moderated | 1 |
| Alias Born | 01/27/2014 |
Monday, June 19, 2017 8:10:37 AM
Mad Props: 3D-Printed Airplane Engine Will Run This Year
At gereports.com - Mad Props: A 3D-Printed Airplane Engine Will Run This Year - Jun 19, 2017
Sections:
3D printing, also called additive manufacturing, is helping the GE team bring the ATP from an idea to a working machine in record time. Announced in 2015, “the ATP is going from a dream to a reality in just two years,” says Gordie Follin, the executive manager of GE Aviation’s ATP program. The normal cycle to get to a running engine is usually twice as long, Follin says, and it can take as much as 10 years to develop. “With additive manufacturing, we’re disrupting the whole production cycle,” he says.
Consider this: 35 percent of the engine is being produced with additive methods. A machine with fewer assembled parts also reduces the number of opportunities for wear, which improves durability. The engine is expected to run 1,000 hours longer between overhauls compared to its competitors.
Follin’s group has already produced all of the engine’s parts. They are now assembling everything, adding instrumentation and getting ready to test critical sub-units. The process has been proven to diminish lead, production and assembly time, while also shaving cost and weight in the finished product.
Additive manufacturing also simplifies the supply chain and lowers the opportunities for delays. “These reductions are real,” Follin says. “We’re not putting so much effort into additive manufacturing because it’s a sexy new technology for its own sake. It’s demonstrably better. It lets us disrupt the process.”
GE has been aggressively developing its 3D-printing capabilities in recent years, so far spending $1 billion to mature the technology for its businesses. Last year, the company acquired two manufacturers of 3D-printing machines and launched GE Additive, a new GE business dedicated to supplying 3D printers, materials and engineering consulting services.
______________________________________________________________
Overall, the 3D-printing effort will pay off by decreasing the finished ATP engine’s weight. The engine is 5 percent lighter, which means it will take the aircraft less fuel to attain the same speed. Design changes will allow the ATP to burn 20 percent less fuel and achieve 10 percent more power than its competitors.
“We’re no longer constrained by traditional design and engineering processes,” Follin says. “3D printing is letting us be more creative than we’ve ever been before.”
Top: GE Aviation’s new Advanced Turboprop (ATP), will be the first commercial aircraft engine in history with a large portion of components made by additive manufacturing methods, which include 3D printing. The designers reduced 855 separate parts down to just 12. As a result, more than a third of the engine is 3D-printed. Above: Engineers are readying 3D printed compressor parts for a balance test. Images credit: GE Aviation.
A 3D printed compressor part for the ATP. Image credit: GE Aviation.
At gereports.com - Mad Props: A 3D-Printed Airplane Engine Will Run This Year - Jun 19, 2017
Sections:
3D printing, also called additive manufacturing, is helping the GE team bring the ATP from an idea to a working machine in record time. Announced in 2015, “the ATP is going from a dream to a reality in just two years,” says Gordie Follin, the executive manager of GE Aviation’s ATP program. The normal cycle to get to a running engine is usually twice as long, Follin says, and it can take as much as 10 years to develop. “With additive manufacturing, we’re disrupting the whole production cycle,” he says.
Consider this: 35 percent of the engine is being produced with additive methods. A machine with fewer assembled parts also reduces the number of opportunities for wear, which improves durability. The engine is expected to run 1,000 hours longer between overhauls compared to its competitors.
Follin’s group has already produced all of the engine’s parts. They are now assembling everything, adding instrumentation and getting ready to test critical sub-units. The process has been proven to diminish lead, production and assembly time, while also shaving cost and weight in the finished product.
Additive manufacturing also simplifies the supply chain and lowers the opportunities for delays. “These reductions are real,” Follin says. “We’re not putting so much effort into additive manufacturing because it’s a sexy new technology for its own sake. It’s demonstrably better. It lets us disrupt the process.”
GE has been aggressively developing its 3D-printing capabilities in recent years, so far spending $1 billion to mature the technology for its businesses. Last year, the company acquired two manufacturers of 3D-printing machines and launched GE Additive, a new GE business dedicated to supplying 3D printers, materials and engineering consulting services.
______________________________________________________________
Overall, the 3D-printing effort will pay off by decreasing the finished ATP engine’s weight. The engine is 5 percent lighter, which means it will take the aircraft less fuel to attain the same speed. Design changes will allow the ATP to burn 20 percent less fuel and achieve 10 percent more power than its competitors.
“We’re no longer constrained by traditional design and engineering processes,” Follin says. “3D printing is letting us be more creative than we’ve ever been before.”
Top: GE Aviation’s new Advanced Turboprop (ATP), will be the first commercial aircraft engine in history with a large portion of components made by additive manufacturing methods, which include 3D printing. The designers reduced 855 separate parts down to just 12. As a result, more than a third of the engine is 3D-printed. Above: Engineers are readying 3D printed compressor parts for a balance test. Images credit: GE Aviation.
A 3D printed compressor part for the ATP. Image credit: GE Aviation.
Join the InvestorsHub Community
Register for free to join our community of investors and share your ideas. You will also get access to streaming quotes, interactive charts, trades, portfolio, live options flow and more tools.
