Main functions
Aerospace engines are the components that generate mechanical power in an aircraft's propulsion system. These include lightweight piston engines and gas turbine engines, both featuring numerous components made from diverse materials that require machining to the highest quality standards with optimized processes.
Below are examples of components for which we deliver competitive, tailored solutions.
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1. Landing Gear
Landing gears are primarily made of high-alloy steel or titanium alloy, which exhibit difficult-to-machine characteristics including high hardness, high strength, corrosion resistance, and high temperature resistance. These materials cause severe tool wear, significant work hardening, and challenging cutting conditions.
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2. Flap Guide Rail
Flap guide rails are primarily made of titanium alloy, which exhibits difficult-to-machine characteristics including high hardness, high strength, corrosion resistance, and high temperature resistance. These materials cause severe tool wear, significant work hardening, and challenging cutting conditions.
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3. Structural Components
Structural components are primarily made of titanium alloy, which exhibits difficult-to-machine characteristics including high hardness, high strength, corrosion resistance, and high temperature resistance. These materials cause severe tool wear, significant work hardening, and challenging cutting conditions.
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4. Blade Machining
Blades are primarily made of stainless steel, titanium alloy, or high-temperature alloys, which exhibit difficult-to-machine characteristics including high hardness, high strength, corrosion resistance, and high temperature resistance. These materials cause severe tool wear, significant work hardening, and challenging cutting conditions.Most blades are machined via milling operations, and using specialized blade machining tools is an effective way to improve machining efficiency.
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5. Fan Casing
Fan casings are primarily made of titanium alloy, which exhibits difficult-to-machine characteristics including high hardness, high strength, corrosion resistance, and high temperature resistance. These materials cause severe tool wear, significant work hardening, and challenging cutting conditions.
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6. Aeroengine Blisk Machining
Integral blisk machining presents greater challenges than blade machining. Variations in part rigidity and machining interference have a significant impact on the dimensional accuracy of blade profiles, making the correct combination of tool types, tool path design, and machining parameters critical.
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7. Aerospace Shaft Component Machining
These components are made of titanium alloy and require boring of internal cavities and milling of large "tulip-shaped" grooves.
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