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Aviation Industry
CNC machining is used to manufacture assembly and maintenance parts for aircraft and space shuttles. In the aerospace industry, aircraft typically require CNC machined parts, kits and assemblies. Aerospace equipment and aircraft parts require the best parts to make hinges, bushings, valves, fixtures or other custom parts of the highest quality metal.
CNC MILLING PARTS CNC TURNING PARTS LASER CUTTING PARTS SHEET METAL PARTS METAL STAMPING PARTS CARBON FIBER DRONE PARTS CARBON FIBER MACHINERY PARTS CARBON FIBER TUBES OTHER CARBON FIBERPLASTIC INJECTION PARTS PLASTIC MACHINING PARTS OTHER CUSTOM PARTS
Aerospace CNC machining materials
A key part of aerospace engineering is material selection. Aerospace manufacturing requires materials with superior strength, reliability and wear resistance to ensure that they are prepared for changing conditions and demanding structural loads. Here are some of the materials needed for aerospace processing:
l Stainless steel
Stainless steel is a viable alloy material for a variety of aerospace components and has been used in aerospace applications for decades. Stainless steel
Stainless steels are resistant to corrosion and high temperature oxidation because of their chromium content which produces a rich oxide film. Common aerospace applications of stainless steel include fuel tanks, exhaust parts, aircraft panels, high-temperature engine parts, and parts requiring welding.
l aluminum
Aluminum has been a staple of the aerospace industry. The metal is almost a third of the weight of stainless steel, helps improve fuel efficiency and weight margin, and is generally cheaper and easier to handle. But it's also a more efficient heat conductor, so it's not suitable for parts that require higher heat resistance and are harder to solder. As technology evolves, other alloys (and composites) may replace aluminum as the primary aerospace material, but it still has applications in industry today.
l titanium
Now the aerospace industry is leading the way in using titanium because of its amazing strength-to-weight ratio. The metal is an attractive choice for aerospace engineering because it is lighter than aluminum but has impressive heat and corrosion resistance. Excellent resistance occurs when treated with carbon fiber reinforced polymers (CFRPS). From frames to engines, manufacturers see titanium as an ideal solution for complex aerospace processes.
l high temperature superalloy
These superalloys, metal alloys, are characterized by heat and corrosion resistance, light structure, and high strength. Superalloys are usually the best choice for the hottest parts of jet engines, turbine and compressor stages. Some of the superalloys we use are nickel superalloys, cobalt superalloys and iron superalloys.
Aerospace processing methods
l 3D processing
Through 3D NC machining, almost any model or technical drawing can be formed into strict specifications. 3D processing is particularly suitable for large aerospace components. 3D technology and technology can handle complex operations easily, accurately and inexpensively.
l 5 axis machining
Five-axis CNC machining using high-precision CNC operating machine tools, can simultaneously move the tool or parts on five axes. This extremely precise method is ideal for aerospace engineering, which involves making particularly complex parts using special materials.
l three-coordinate detection
The Capability Maturity Model (CMM) testing service ensures that your CAD models and two-dimensional drawings for aerospace components are fully achievable in terms of quality, reliability, and safety. Three coordinate detection is an important step in all aerospace engineering projects, in which safety is very important.
By converting the component geometry into CMM programmable data, each complete component is examined with a detailed report.
l CNC turning
CNC turning enables the manufacturing of multiple parts to perfectly interact. Computer aided drafting (CAD) software controls CNC lathes that can cut excess materials and rotate materials at high speeds. The accuracy of this machine is less than 10 microns. According to the design drawings, ensure that the CNC lathe works according to the exact specifications, so that the aviation parts have the highest quality and reliability.
CNC MILLING CNC turning laser cutting sheet metal carbon fiber PROCESSING CNC MACHINING CNC ALUMINUMRAPID PROTOTYPING FEEDS SURFACE FINISHINGFAQ CATALOGUE BLOG PARTS FOR MACHINES PARTS FOR DRONESCNC MILLING PARTS CNC TURNING PARTS LASER CUTTING PARTS SHEET METAL PARTS METAL STAMPING PARTS CARBON FIBER DRONE PARTS CARBON FIBER MACHINERY PARTS CARBON FIBER TUBES OTHER CARBON FIBERPLASTIC INJECTION PARTS PLASTIC MACHINING PARTS OTHER CUSTOM PARTS
