Dust vs. CMCs: A Cool Winner

The second phase of GE9X CMC (ceramic matrix composite) component testing in a GEnx demonstrator engine is complete

19th Jan 2017


Dust vs. CMCs: A Cool Winner

EVENDALE, OH | January 19, 2017


The second phase of GE9X CMC (ceramic matrix composite) component testing in a GEnx demonstrator engine is complete, with the CMCs continuing to be the clear cool winner. The demonstrator engine accumulated 1,800 cycles in the latest round of tests, which included exposure to harsh environmental conditions of dust and debris. The level of debris exposure was equivalent to about 3,000 take-off and landing operation cycles. The GE9X engine will power Boeing's 777X aircraft.
 
According to Ted Ingling, GE9X general manager at GE Aviation, "Dust and debris accumulate on the external surface of the airfoils and can degrade the insulation coatings. They can also collect on internal cooling circuits of the blades and nozzles and degrade the cooling effectiveness. Both factors can lead to durability issues. These demonstrator tests allow us to get an accelerated understanding of how our new designs and materials perform in all environments, including those prone to high airborne debris."
 
For the second round of tests, the GEnx demonstrator engine utilized the same CMC combustor liners, HPT stage 1 shrouds and HPT stage 2 nozzles from the first round of tests in September 2015 along with the addition of the HPT stage 1 CMC nozzles.
 
"The majority of the CMC components experienced a total of nearly 4,600 cycles in the two testing phases in the GEnx demonstrator engine," said Ingling. "All of the CMC components performed extremely well and continue to prove their value."
 
The use of lightweight, heat-resistant CMCs in the hot section of jet engines is a significant breakthrough in the aviation industry. CMCs consist of silicon carbide ceramic fibers and ceramic matrix and are enhanced with proprietary coatings. With one-third the density of metal alloys, these ultra-lightweight CMCs reduce an engine's weight, which improves fuel efficiency and durability. CMCs are also more heat resistant than metal alloys, allowing the diversion of less cooling air into an engine's hot section. By using this cooling air in the engine flow path, an engine runs more efficiently at higher temperature.
 
The GEnx CMC demonstrator engine also incorporated non-CMC GE9X parts, including the new 3D additive manufactured lightweight low-pressure turbine titanium aluminide (TiAl) blades produced at Avio Aero and the next-generation HPT stage 1 blades with advance cooling technology. The next-generation HPT blades utilize a proprietary process invented at GRC and industrialized at GE Aviation's Cores & Castings facility in Dayton, OH. This novel process employs the most efficient cooling circuits ever produced, which result in significant fuel efficiency improvement over historical designs.
 
Certification testing on the GE9X program will begin in the first half of this year along with flight testing on GE Aviation's flying test bed. Engine certification is expected in 2018.
 
With almost 700 GE9X engines on order, the GE9X engine will be in the 100,000 pound thrust class and will have the largest front fan at 134 inches in diameter with a composite fan case and 16 fourth generation carbon fiber composite fan blades. Other key features include; a next-generation 27:1 pressure-ratio 11-stage high-pressure compressor; a third-generation TAPS III combustor for high efficiency and low emissions; and CMC material in the combustor and turbine.
 
IHI Corporation, Safran Aircraft Engines, Safran Aero Boosters and MTU Aero Engines AG are participants in the GE9X engine program.
 
GE Aviation, an operating unit of GE (NYSE: GE), is a world-leading provider of jet and turboprop engines, components, integrated digital, avionics, electrical power and mechanical systems for commercial, military, business and general aviation aircraft. GE Aviation has a global service network to support these offerings and is part of the world's Digital Industrial Company with software-defined machines and solutions that are connected, responsive and predictive.

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