Combustor Components
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Combustor Components
Engine combustors are subjected to high temperatures, pressures, and stresses, and require high performance and durability. Additive manufacturing can offer several advantages for engine combustor design and fabrication, such as reducing weight, improving fuel efficiency, enhancing cooling, and enabling novel geometries. Jet engines are exceptionally complex and precise assemblies made up of thousands of parts. The combustion process alone generates an enormous amount of heat to the point where only the most heat-resistant materials are up to the job. With ADDere Additive Manufacturing the number of individual components necessary for a combustor can be reduced, which in turn also improves the overall reliability of the engine and reduces component manufacturing costs.
The ADDere laser-wire additive manufacturing system specializes in producing 3D printed large-scale, near-net-shape parts in a variety of metals including Titanium, Inconel, Stainless Steel and other superalloys, as well as most Ferrous-based metals.
ADDere has these additive manufacturing capabilities as well as many more printing capabilities. Contact us today if your business is interested in 3D-printed engine combustor components.
ADDere Print Details
Deposition Rate: 4 lbs. per hour
Total Built Time: 13 hours
Material: Stainless Steel
Dimensions: 1 meter diameter
System Used: ADDere Custom System
Demo Part
Combustor Turbine
ADDere specializes in producing complex 3D printed large-scale, near-net-shape parts in a variety of common metals and superalloys.
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