Laser Technology Brings New Momentum to Traditional Industries, Supporting Industry Development!

From the 1960s to the 1970s, China’s laser industry began to develop, achieving a series of significant results in the international laser field. In the 1980s, the Chinese laser industry entered a period of rapid growth. By the early 1990s, it had matured, achieving major breakthroughs and innovations.

Laser processing technology has been developing in China for over 20 years. The industrial laser industry has transformed from non-existence to a complete industrial chain with domestic technology. During this process, the procurement costs of industrial laser equipment have significantly decreased, making it affordable for more domestic users. This is the most important reason for the rapid and large-scale application of laser equipment in China.

Currently, laser processing technology has permeated numerous industries, including consumer electronics, medical devices, machinery and equipment, automotive manufacturing, aerospace, metal products, furniture, and daily necessities. With advantages such as high efficiency, high precision, clean processing, and good economic benefits, laser equipment is gradually replacing the traditional processes used in these industries.

Laser processing is an emerging manufacturing technology. Without discussing its applications in high-tech fields like biomedicine, aerospace, and renewable energy, its use in traditional industries related to everyday essentials is even more widespread. This application in traditional industries has generated early demand for laser equipment, driving the growth of the laser processing market.

These traditional industries already had a complete set of established production methods and processes, but the advantages of laser processing align more closely with current market demands. The emergence of new technological concepts and industries does not mean that traditional industries are obsolete and should be eliminated; on the contrary, many traditional industries provide essential goods for our lives, such as clothing and food. They not only should not be eliminated but should also be encouraged to transform and upgrade for healthier development and greater technological content. Laser technology serves as an important catalyst for traditional industries, bringing new momentum to them through the advent of laser processing.

High Laser Application Rate in Metal Cutting

Metal cutting, as an important aspect of industrial production, has its process choices directly impacting production efficiency and environmental sustainability. Traditional cutting methods, such as mechanical shears, punching machines, wire cutting, flame cutting, and water jet cutting, have met production needs to some extent. However, they suffer from drawbacks such as high tool wear, pollution generation during the processing, and low efficiency.

The advent of laser cutting technology has brought revolutionary changes to the metal cutting field. With its characteristics of high speed, high precision, and high efficiency, laser cutting has been widely adopted in various metal cutting scenarios. It is applied in industries such as automotive manufacturing, construction machinery, offshore equipment, energy installations, and aerospace.

Compared to traditional cutting methods, laser cutting requires no physical contact, resulting in virtually zero tool wear. Additionally, it produces no pollutants during the processing, fully aligning with modern industrial production's demands for environmental protection and efficiency.

In fact, for stainless steel and carbon steel materials, the replacement rate of traditional processes by laser cutting has already exceeded 50%, making it the most widely used processing method in metal cutting applications.

Standalone Fiber Cutting Control System

The RDC6563FG-LITE Offline Fiber Cutting Control System is based on a Linux human-machine operating system, featuring a more user-friendly interface and more powerful functions. This controller includes enhanced motion control capabilities, a large-capacity file storage system, a more compatible USB driver, multiple general/special IO controls, and an integrated dedicated timing system that supports hardware encryption algorithms. It also supports communication with PCs via Ethernet and USB options.

The Z-axis features an automatic height adjustment system based on capacitive sensing technology, utilizing a high-performance amplifier and professional anti-interference design. This significantly improves the adjustment speed and response time, enabling precise automatic height control. When paired with the RDCutist software, it can achieve functions such as jump cutting, flying cutting, and short-distance non-lifting.

This system is suitable for cutting metal materials in industries such as sheet metal, automotive parts, craft gifts, decorative advertising, and kitchenware.