Industry News

Visual laser marking combines visual recognition technology with laser marking technology, and today, laser marking remains one of the most widely applied processing methods.Visual laser marking refers to the process of using a laser beam to create marks, text, logos, or codes on the surface of a material.

A Precision Vision Laser Control board is an advanced system that integrates laser control with real-time vision feedback, enabling highly accurate and automated laser processing tasks. These laser control board are commonly used in applications such as laser marking, laser engraving, laser cutting, and micro-manufacturing, where precision and adaptability are crucial.

Laser film cutting has higher processing requirements and usually needs to be equipped with a dedicated laser controller. The laser controller plays an important role in laser film cutting. It is responsible for synchronizing laser power, motion, and cutting strategy in the cutting process. A good laser controller can directly affect the precision, quality, and efficiency of film laser cutting.

The laser controller is the core of modern laser equipment. By using a laser controller, operators can manage laser devices to perform a wide range of processing tasks such as engraving, cutting, and marking.

In general, fabrics cut with a laser don’t fray. The heat from the laser melts or fuses the fibers along the cut edge, creating a sealed finish that greatly reduces—or even eliminates—fraying, especially in synthetic materials like polyester, nylon, and acrylic. However, while laser cutting works best at preventing fraying in synthetics, it doesn’t always completely stop fraying in natural fibers.

An EtherCAT laser controller is a motion and process control device that uses the EtherCAT fieldbus (Ethernet for Control Automation Technology) to control industrial lasers in applications such as cutting, welding, engraving, marking, drilling, and additive manufacturing.