Copper aluminum substrate, as a key material in the field of electronic manufacturing, is widely used in PCB (printed circuit board), LED lighting, new energy vehicle power batteries and other scenarios. With the breakthrough of laser technology, copper aluminum substrate laser cutting machines have gradually replaced traditional mechanical processing methods with their advantages of high precision, high efficiency, and non-contact processing, becoming the core equipment for industry upgrading.

 

In PCB manufacturing, the processing of copper and aluminum substrates requires extremely high precision. The traditional CNC plate machine and stamping process have defects such as high tool wear, long processing time, and high cost. The laser cutting machine reduces the processing time of single boards to 2-15 minutes through non-contact processing, reduces costs by more than 90%, and has small cutting seams, smooth edges without burrs, meeting the high-precision requirements of complex graphics and micro holes.

 

The rapid development of new energy vehicles has driven a surge in demand for copper aluminum electrode plates in power batteries. Traditional cutting methods can easily cause material deformation and burrs, affecting battery safety. High power fiber lasers are designed with anti high reflectivity to effectively cut high reflectivity materials such as copper and aluminum, improving cutting efficiency and achieving smooth cutting surfaces, reducing subsequent processing steps. It combines high speed and low energy consumption characteristics in thin plate cutting, and is widely used in the fields of power batteries and hardware appliances.

 

The copper aluminum substrate laser cutting machine has achieved the unity of high precision, high efficiency, and environmentally friendly production through technological innovation and process innovation, becoming a core equipment in fields such as electronic manufacturing and new energy. In the future, with the integration of ultrafast laser and intelligent technology, its application scope will be further expanded, promoting the upgrading of high-end manufacturing towards lean and sustainable direction.