Industry News

Self-adhesive laser die cutting is a digital processing technology that uses a laser beam instead of traditional metal dies to perform high-precision cutting, kiss-cutting, perforating or engraving on self-adhesive materials. When cutting on the surface layer of the self-adhesive material, it relies on a powerful laser controller to precisely control the equipment to cut through only the surface material and adhesive layer without cutting through the release liner. A laser controller with such functions is not only required for self-adhesive die cutting, but also for label printing, electronic die cutting, protective film processing and other fields, which all require the laser controller to have such strong functions.

Laser technology plays a crucial role in the manufacturing of flexible displays. Laser cutting, in particular, is one of the most challenging processes in both flexible display fabrication and module packaging. The laser controller is the key factor determining cutting precision, yield rate, and process consistency. Because flexible display materials are extremely thin, multilayered, and heat-sensitive, the laser control board must provide high precision, fast response, and intelligent process management.

When engraving acrylic, the laser control board plays a critical role in setting motion, power, speed, and compatibility.

Because glass has high hardness, high brittleness, and high light transmittance, it is difficult to process with conventional mechanical tools, which often leads to edge chipping. These characteristics make it necessary for laser engraving to be precisely controlled. The role of the laser controller here is mainly to drive the laser for stable output, while simultaneously coordinating the motion system (X, Y, Z axes) and laser power in real time.

Die cutting is a manufacturing process that uses a shaped tool (a die) to cut, score, perforate, or shape materials into precise parts. The laser controller is actually one of the most critical factors in laser die cutting, since it governs how precisely, quickly, and cleanly the laser can cut or score the material.

In non-metal laser processing (like wood, acrylic, leather, fabric, paper, glass, etc.), a good laser controller can ensure efficient and stable cutting, engraving, or marking operations, while also guaranteeing the output quality of the product.