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In modern manufacturing, laser cutting technology (including high-precision laser cutting and fiber laser cutting equipment) has become one of the core technologies in the material processing field due to its advantages of high precision and efficiency. As an important product in the laser equipment field, DMK laser cutting equipment further promotes the practical application of laser cutting technology.
Ⅰ. Laser Cutting Principle: The Technical Core of DMK Equipment
The principle of laser cutting is based on the energy conversion of light, which is also the core logic for realizing high-precision laser cutting. A laser generator produces a laser beam with high energy density, which is focused by an optical system to form an extremely small spot (usually only 0.1-0.3 mm in diameter). When the spot acts on the material surface, light energy is quickly converted into thermal energy, causing the material to reach its melting or boiling point in an instant. At the same time, auxiliary gases (such as oxygen and nitrogen) are used to blow away the molten or vaporized material, thereby completing the material cutting.
DMK laser cutting equipment continuously optimizes the stability of the laser source and the precision of the focusing system. The core components of its high-power fiber laser cutting equipment can concentrate energy more effectively, reduce energy loss significantly, and make the cutting efficiency more than 20% higher than that of traditional laser equipment, perfectly meeting the efficient conversion requirements of the laser cutting principle.
Ⅱ. Characteristics of Laser Cutting: Core Advantages of DMK Equipment
Laser cutting has three prominent characteristics, which are also the keys for DMK laser cutting equipment to stand out in the market:
High-precision Laser Cutting Performance: The positioning accuracy of DMK laser cutting equipment can reach ±0.01 mm, with flat and burr-free cutting edges, eliminating the need for subsequent grinding processes and meeting the processing requirements of precision parts;
High-efficiency Cutting Advantage: For mild steel with a thickness of 10 mm, the cutting speed of DMK laser cutting equipment can reach 1.5 m/min, far exceeding that of traditional plasma cutting equipment and greatly shortening the production cycle;
Multi-material Adaptability: DMK laser cutting equipment can cut various materials such as metals (steel, aluminum, copper) and non-metals (acrylic, wood). It can also realize automatic cutting of complex patterns through programming, adapting to customized production scenarios.
Ⅲ. Laser Cutting Application Scenarios: Industry Penetration of DMK Equipment
In laser cutting application scenarios, DMK laser cutting equipment has been widely used in multiple core industries:
- Automotive Manufacturing Field: Used for cutting car body frames and chassis parts, reducing the cost of traditional mold investment and adapting to the rapid iteration needs of vehicle models;
- Sheet Metal Processing Industry: Replacing traditional punch equipment, realizing rapid delivery of small-batch orders and lowering the production threshold for small and medium-sized enterprises;
- Advertising Production Industry: Precisely cutting acrylic sheets and metal letter shells to produce exquisite signs and display props, improving the aesthetics of products;
- Aerospace Field: For special materials such as titanium alloys and high-temperature alloys, DMK laser cutting equipment adopts low-temperature cutting technology to avoid material performance damage caused by high-temperature deformation, ensuring the safety of parts.
With the intelligent upgrading of the manufacturing industry, laser cutting technology (including high-precision laser cutting and fiber laser cutting equipment) will become more mature. Through continuous technological iteration, DMK laser cutting equipment is providing efficient solutions that are more in line with the laser cutting principle and more suitable for laser cutting application scenarios for various industries, promoting the transformation of traditional production models towards precision and intelligence.