What are the key elements of aerospace parts processing?
Aerospace parts processing. Aerospace itself belongs to the precision industry, so there are strict requirements for the processing of its parts,
Understanding that high-quality part processing requires meeting five key elements, what are the specific elements? Next, let's analyze.
1. Materials
When machining parts for the aerospace industry, the main challenge is to procure and select suitable materials. The aerospace industry has high requirements for raw materials for parts, and even requires the use of high-temperature resistant alloys or special metals, such as high-grade nickel, Inconel nickel alloy, Monel alloy, and titanium.
The hardness and heat absorption properties of these materials enable aerospace equipment to smoothly pass through the Earth's atmosphere during entry into outer space.
However, the inherent characteristics of these materials also make their processing very difficult. Once improper processing occurs, it may lead to the finished product not meeting the requirements. For example, nickel based alloys are prone to tool wear during processing.
2. Tolerance
For the aerospace industry, even a slight error can cause serious accidents. Therefore, in order to ensure the safety of equipment flight, the error amplitude is required to be relatively small. When processing parts, it is required that there should be no significant errors in accuracy and precision. Some components are installed in very small spaces, and once the tolerance is too large, it can cause the parts to be unable to be installed.
3. Inspection
Due to the highly regulated nature of the aerospace industry, the quality and inspection standards for the parts used are also quite strict. The parts produced must be certified by relevant departments.
4. Quality
Parts with substandard quality will inevitably affect the normal use of aerospace equipment, so generally, factory parts require qualified quality.
5. Packaging
We know that the parts used in the aerospace field are quite special, and some parts even have a certain degree of sharpness at the edges, so packaging cannot be ambiguous. There are many parts that require special packaging based on their size and characteristics, and the packaging used should be able to safely reach the user's hands. Once scratches, abnormal noises, bumps, and other situations occur during transportation, it will affect the normal use of the parts.
When packaging parts, try to use standard packaging such as egg boxes, and may even require special pallets or other customized packaging materials. Be careful during transportation and handling to avoid component damage.
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