In an era where consumer electronics increasingly prioritize thinness, performance, and reliability, the internal support structure, though invisible, directly determines the overall stability, heat dissipation efficiency, and user experience.
In the multi-station continuous stamping process of metal contact pieces, coaxiality is the core indicator to ensure the functional stability of metal contact pieces.
Aluminum alloy power supply housings maximize heat dissipation efficiency through structural design, making them a key element in the thermal management of high-power LED lighting and power electronic equipment.
Induction heating and flame heating are commonly used methods. The former has a fast heating speed and precise control, while the latter has simple equipment and low cost.
Effectively suppressing temperature rise while ensuring miniaturization and high reliability has become the core challenge in the development of battery connector metal contact pieces.
To ensure that CNC-machined aluminum alloy power supply housings truly meet the stringent precision assembly requirements of high-end electronic equipment, a systematic optimization of material selection, process control, structural design, and surface tr