Industry dynamics
Aerospace aerospace parts processing technical requirements2024-05-20
The technical requirements of aerospace parts processing are very high, which is because the aerospace field has very strict requirements for the safety and reliability of parts, in order to meet these requirements, it is necessary to strictly control the selection of parts, manufacturing, supply and testing and other links.
First of all, the material selection of a component has a decisive impact on its performance. Components in the aerospace sector typically have high strength, low density, high thermal stability and corrosion resistance to cope with extreme operating conditions, such as high temperature, high pressure, high speed and high radiation. Therefore, the selection of parts needs to be strictly screened and tested according to its use environment and requirements to ensure that it has sufficient strength, toughness, corrosion resistance and fatigue resistance.
Secondly, the manufacturing of parts requires the use of high-precision processes and equipment. Parts in the aerospace field usually have complex internal structures and high-precision dimensional requirements, so advanced manufacturing processes and equipment, such as numerical control machining, laser cutting, 3D printing, etc. are needed to ensure that the dimensional accuracy, surface quality and mechanical properties of parts meet the requirements.
In addition, the supply and testing of parts also need to be strictly controlled. Components in the aerospace sector usually need to undergo rigorous quality testing and certification to ensure that they comply with relevant standards and specifications. For example, the material selection of components, manufacturing and production standards, fault detection, environmental factors and other aspects need to be strictly controlled and tested.
Finally, the quality control of parts processing and manufacturing has become one of the important driving forces for the development of China's aerospace manufacturing industry. For example, the 3D measurement technology of the Science and Education and intelligent Manufacturing Division of Guangzhou Electronic Technology Co., Ltd. of the Chinese Academy of Sciences has a wide range of application prospects in the aerospace field. The technology can provide reliable 3D data, quickly and accurately obtain the deviation of each position of the workpiece, improve the detection efficiency, reduce time and labor costs, and replace the traditional mechanical inspection tools. It is more suitable for the strict inspection requirements of aerospace parts.
To sum up, the technical requirements of aerospace parts processing are very high, and it is necessary to strictly control the selection, manufacturing, supply and testing of parts to ensure the safety and reliability of parts.