CNC machining technology, with its digital control, high repeatability, and stable process output, has become the core means to ensure the high precision and consistency of VGA switch housings.
More importantly, CNC technology not only provides material advantages but also transforms the metal housing from a "passive enclosure" to an "active heat sink" through precise structural design, significantly improving the overall thermal performance.
Achieving high rigidity and strong vibration resistance through the coordinated optimization of material selection, structural design, and precision machining processes has become the core challenge in CNC hardware processing housing manufacturing.
CNC machining housings are mostly made of metal materials such as aluminum alloys and stainless steel, and are often subjected to dynamic loads from motor vibration, road impact, wind load, or thermal cycling during equipment operation.
Controlling the dimensional accuracy of the splicing points of multi-screen shells in CNC hardware processing is a systematic engineering project integrating precision design, materials science, CNC technology, and intelligent inspection.
CNC machining, with its high flexibility, high precision, and powerful three-dimensional forming capabilities, has become an irreplaceable core process in the manufacturing of complex curved metal casings.
