CNC Laser Cutter at Asset Plant & Machinery is a manufacturing process that uses a focused high- power laser beam to cut irregular shapes and designs. This process is suitable for a variety of materials, including metal, plastic, wood, gemstones, glass, and paper. The process does not require special construction tools to produce precise, complex, and complex parts.
Several types of laser cutting can be used, including fusion cutting, oxidation cutting, and marking. In any laser cutting process, parts can be manufactured with high precision. Compared with other traditional cutting methods (such as powerful cutting and waterjet cutting), high-quality edges and overall less material contamination, physical damage, and waste. For example, cutting reflective materials or materials that require secondary processing and finishing.
Requirements and specifications required for specific cutting applications-e., Materials and their characteristics, energy consumption and power consumption limits, secondary processing, etc. will help determine the most suitable cutting process type.
Although CNC Laser Cutter at Asset Plant & Machinery cutting process has its advantages and disadvantages, this article will focus on laser cutting and outline the basic principles of laser cutting. The process of the laser cutting machine and the necessary components and mechanics.
Laser Cutting Machine And Process
CNC Laser Cutter at Asset Plant & Machinery is a non-contact manufacturing process based on heat, suitable for metal and non-metal materials. When it comes to productivity, there are several factors to consider. B. The configuration and setting of the laser cutting machine, the material to be cut and its characteristics, and the type of laser and auxiliary gas used.
Laser Machine Components
Unlike mechanical cutting using electric cutting tools and equipment and water jet cutting using pressurized water and abrasives, laser cutting uses a laser cutting machine for cutting, engraving, and marking. A typical configuration includes a laser cavity assembly, a mirror, and a laser cutting head. The laser cutting head includes a laser focusing lens, a pressurized gas assembly, and a nozzle. The basic laser cutting process includes the following steps:
Radiation Generation
The term "laser" comes from the abbreviation "LASER" or "Stimulated Light Amplification". In essence, the acronym summarizes the basic principles of lasers: stimulation and amplification. Combining these principles, the laser cavity uses stimulated emission and spontaneous emission processes to generate a high-intensity beam that is spatially and spectrally coherent such as a Laser beam.
Beam Focus
The focusing lens focuses the laser beam on the center of the nozzle where the end of the laser cutting head hits the surface of the workpiece. By focusing the beam, the lens concentrates the energy of the beam on a point that increases the intensity (I) of the beam.
Beam Movement
After starting to heat locally, melting or steaming, the CNC Laser Cutter at Asset Plant & Machinery moves the material removal area to the top of the workpiece for complete cutting. The machine moves by adjusting the reflector, controlling the laser cutting head, or manipulating the workpiece. The laser cutting machine has three different configurations, depending on how the laser beam moves in the material: moving material, hybrid laser cutting system, and flying optical system.