Laser cutting of common metals

Laser cutting machine is suitable for rapid cutting of large amounts of metal, and is the most commonly used equipment for industrial sheet metal processing today. Laser cutting is cleaner, smoother and more compact than mechanical cutting. Like CNC machine tool processing, it can be programmed and guided by computer, which means that laser cutting machine can automatically produce a large number of metal parts for automobile, computer and other industries.

Generally, strange shapes such as automobile frames or hydraulic components need laser cutting, and many non-standard parts in the aerospace industry also need laser cutting. Laser cutting machines are usually better than plasma cutting.

High reflective metal cutting

Since we mentioned metals, why did we mention highly reflective metals? Because some metals are highly reflective, scientists are worried about the application of high-power laser cutting machines. If metals can reflect laser, the laser cutting machines will self destruct.

The solution to this problem is to cut with a fiber laser. Using this technology, the fiber cable transmits the laser beam to the metal. Although the workpiece reflects light, it will not damage the cable. Aluminum, silver, copper, gold and other metals are highly reflective, and they are crucial in automobile and semiconductor production. The invention of optical fiber laser cutting machine solves the processing problem of highly reflective workpieces.

Medical device manufacturing

Laser cutting machine also plays an important role in the medical industry. In the medical industry, very high precision and strict dimensional tolerance are essential conditions. Due to the large demand in the medical industry, the laser cutting machine technology can accurately duplicate the design, and can work accurately and quickly.

Many types of medical device parts are processed and manufactured by laser cutting machines. From artificial cardiovascular orthopedic devices to surgical implants, these devices can be manufactured at a faster speed without sacrificing the accuracy of the parts.