In precision aviation parts processing, the control of surface residual stress is a core factor affecting the fatigue life, corrosion resistance and dimensional stability of parts.
If the structural strength of the urea pump upper and lower aluminum plates is insufficient, fatigue cracking, seal failure, or even complete fracture can easily occur, leading to system leaks, excessive emissions, or vehicle downtime.
In the field of precision aviation parts processing, achieving efficient and precise connection of multiple processes is the core link to ensure parts quality and improve production efficiency.
The critical dimensional tolerance requirements for some semiconductor equipment precision parts processing are controlled within ±0.5 micrometers, equivalent to 1/140th the diameter of a human hair. Faced with such an extreme challenge, ultra-precision d
Precision aviation parts processing relies on a series of cutting-edge precision machining technologies to precisely transform these high-performance materials into complex geometric shapes of "aerial sprites."
For existing defects, local treatment can be carried out through techniques such as mechanical polishing, chemical etching, or laser repair, but the repair parameters must be strictly controlled to avoid secondary damage.