Combustion chambers of modern aircraft engines produce temperatures of over 2,000 Kelvin during combustion.
This value is several hundred degrees above the melting temperatures of the materials used and certain areas of the thermally high loaded components must be cooled and provided with special thermal barrier coatings, both internally and externally. After landing, the engines cool down again quickly. The constant change of heating and cooling places enormous stress on the components in the engines. Therefore they have to be checked and serviced regularly.
After years of research, Professor Frank Brückner and Mirko Riede of the Fraunhofer Institute for Material and Beam Technology IWS have developed laser-fabricated microstructures that extend the life of the thermal barrier coatings and contribute to a significant reduction in kerosene consumption and pollutant emissions. The research project was performed in close cooperation with the renowned engine manufacturer Rolls-Royce.
At its core, the IWS technology bases on filigree, additively manufactured microstructures.
These are used to build innovative Thermal Barrier Coatings (TBCs) on the turbine components and ensure that a metallic, oxidation-resistant adhesion promoter layer and a ceramic insulating layer are clamped together.
The Fraunhofer researchers have solved a further issue that occurs during the rapid expansion and contraction of the components. The expansion creates mechanical stresses in the insulation layer, which are caused by different expansion degrees of the materials. This can lead to horizontal cracks in the ceramic layer, which could subsequently flake off. The microstructures therefore specifically initiate vertical segmentation cracks in the ceramic layer. These reduce tensile stresses in the material and thus prevent the formation of the dreaded horizontal cracks.
Additive manufacturing technology using single-mode fiber laser
To generate filigree microstructures, the researchers had to further develop existing production techniques. A high-precision single-mode fiber laser generates microstructures down to the order of 30 microns. The columnar arrangement of the microstructures increases the expansion tolerance of the insulating layer.
The knowledge needed to design the structures for the TBCs and for the sophisticated manufacturing processes have not only been gained in practical experiments. “The simulations and the theoretical modeling with which we have worked in addition to the experiments also play a major role in the success,” explains Brückner.
Kerosene consumption drops by 10 percent
The many years of work on the joint research project has paid off. The new technology can further improve the efficiency of the jet engines, along with increasing the combustion temperature. The more efficient combustion results in decreasing fuel consumption by ten percent and reduces greenhouse gas emissions. In conjunction with other measures, there are significant cost savings per year and aircraft amounting to approximately USD 2.9 million.
The joint team of Fraunhofer researchers and engineers from Rolls-Royce has succeeded in transferring the research work into production-ready manufacturing that meets the stringent safety standards of the aviation industry. After first successful test flights of the engines with Fraunhofer IWS technology in November 2015, the official aviation approval of the European Aviation Safety Agency (EASA) was issued. Since February 2018, the engines have been used in long-haul aircraft for the Airbus A350-1000. The Trent XWB-97 is the exclusive propulsion of this aircraft model and the most efficient large-capacity engine in the world today. The Fraunhofer experts expect that other jet engines will also be equipped with the innovative IWS technologies in the future.
For their scientific achievements, Frank Brückner and Mirko Riede as well as Dr. Dan Roth-Fagaraseanu from the industrial partner Rolls-Royce received the 2018 Joseph von Fraunhofer Prize of the Year 2018.
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