Faq
Common problems encountered in daily processing
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A: Precision aviation parts processing has a wide range of applications in multiple key fields, mainly due to its high precision, high quality, and high reliability characteristics.
A: There are multiple difficulties in the CNC machining process of titanium alloy, which mainly stem from the special physical and chemical properties of titanium alloy materials.
The thermal conductivity of titanium alloy is poor, and the cutting heat is not easily diffused during cutting, which leads to a rapid increase in tool temperature, thereby causing rapid tool wear and cracking. This not only shortens the service life of the tool, but may also lead to tool collapse during the machining process, increasing machining costs and risks.
A: High strength: Aviation components need to withstand extreme mechanical stress and pressure, so materials must have high strength characteristics to ensure that the parts can maintain stability and reliability in extreme working environments.
Lightweight: In order to reduce the overall weight of the aircraft, improve fuel efficiency and performance, materials should be made as lightweight as possible. Lightweight materials help reduce energy consumption during flight while maintaining sufficient structural strength.
High temperature stability: Aircraft will generate high temperatures during high-speed flight, so materials need to have good high temperature stability to avoid deformation, melting, or performance degradation in high-temperature environments.
A: CNC lathes typically use materials such as steel and copper for easy cutting, which contain high sulfur and neighboring phosphorus. Sulfur and manganese exist in the form of manganese sulfide in the steel. CNC precision parts machining provides lubrication, making the steel easier to cut and improving the production progress of lathes.
