WHAT IS LASER CUTTING TECHNOLOGY?
Obtaining the laser beam has increased the application area by providing convenience to the industrial sector. It has entered the field of use of engineering companies with welding, drilling and cutting processes. Since the production process is done with automation control, errors are minimized. With laser technology, which allows production on various benches, 24/7 serial production is made and the cost is reduced. Technology that puts mold and apparatus operations on the shelf offers savings opportunities.
With SolidWorks and similar programs, the production process was accelerated, and many parts of the same thickness were cut together. In laser benches working with carbon dioxide, electrical energy is given to the carbon dioxide gas. In addition, the capacity is increased by 30% by adding nitrogen and helium to the carbon dioxide laser, which has a low amount of gas.
Obtaining the laser beam has increased the application area by providing convenience to the industrial sector. It has entered the field of use of engineering companies with welding, drilling and cutting processes. Since the production process is done with automation control, errors are minimized. With laser technology, which allows production on various benches, 24/7 serial production is made and the cost is reduced. Technology that puts mold and apparatus operations on the shelf offers savings opportunities.
With SolidWorks and similar programs, the production process was accelerated, and many parts of the same thickness were cut together. In laser benches working with carbon dioxide, electrical energy is given to the carbon dioxide gas. In addition, the capacity is increased by 30% by adding nitrogen and helium to the carbon dioxide laser, which has a low amount of gas.
• Carbon dioxide.
• Nitrogen
• Helium
Some gases may contain 4 or 5 components. (Apart from CO, N and Helium, CO, H and Ne can be added to the environment.) The placement, installation, loading and transportation of the laser bench should be done by experts. Sheet metal materials used for high-efficiency production must be of high quality. Rusty, broken, curved sheets reduce the cutting quality and welds occur on the surfaces. The distance of the placed parts should be equal to the wall thickness of the sheet metal. In circular cuts, the hole diameter should be 8mm and in direct drilling, the hole diameter should be half of the sheet metal and its thickness. For drilling holes in large thicknesses, the hole diameters should be half of the sheet metal wall thickness. Only marking is done for drilling holes in very large thicknesses.
In the CAD (Computer Aided Design) stage, the part model is designed and the manufacturing picture is created. This process is performed using AutoCAD software. In addition, the laser is turned into a file with a geo extension to be used. If the drawing is done with the machine's own software, without the need for them. It is saved as a geo file. After these processes, the placement of the parts to be cut is started. A certain number or more different parts of equal thickness can be placed on a sheet metal of known dimensions from a single part. Pre-prepared parts placed on sheet metal. geo extensions are called and placed in the desired number and variety. Cutting methods are determined. In the CAM (Computer Aided Manufacturing) part, cutting simulation of one or more workpieces is performed with the help of the program. Here errors are reviewed and editing is possible.
WHAT IS LASER CUT
Laser beam is used in laser cutting carbon dioxide laser benches and is formed by giving electrical energy to carbon dioxide gas. Laser beam is obtained by adding nitrogen and helium gas to carbon dioxide gas to increase efficiency. Steel, aluminum, copper and brass etc. in laser benches of different brands and models. The cutting process of materials is called Laser Cutting.
The application and increase of laser beam in different sectors is a technology. Cuttings made with CNC Laser Machines reduce the production error to the minimum level and ensure that the processes are carried out automatically. The reason why laser cutting benches have become widespread and used in production is that they respond to the demands of the engineering and industrial sectors. With CNC Laser Cutting Machines, 7 / 24 serial production is made and cost reduction is achieved.
It saves the use of metal, apparatus and molds processed in Laser Cutting Machines. The work weight was loaded on the Laser Cutting Machines and the errors caused by manpower and human power were minimized. Laser cutting method varies as wood, leather, metal, contract. It is possible to cut materials such as nickel alloys, steel, chrome, titanium, stainless steel, aluminum, copper and brass alloys processed in Laser Cutting Machines. In addition, advantages are obtained by using Autocad, SolidWorks and similar programs and cuttings can be made in teams in a shorter time.
LASER CUT ADVANTAGES
Laser Cutting Machines make your work easier by shaping the cutting processes of materials such as nickel alloys, steel, chrome, titanium, stainless steel, aluminum, copper and brass alloys with laser beams. Standing out with its important advantages, CNC Laser Cutting Machines allow you to make quality cuts with high precision.
FRANKLY;
• Reduction in unit cost and high processing speed are achieved with SpiintLas technology.
• Different geometric parts are cut by adding them to a sheet metal plate, there is no mold cost.
• Cost is reduced with joint cutting, cost advantage is provided by minimizing the waste rate.
• A burr-free cut provides quality advantage.
• Holes with a diameter of 0.4 times the sheet thickness on sheet metal can be machined with ConturLas technology.
• Sheet metal plates are cut with a precision of 0.05 mm, which will make a difference in quality.
• All kinds of texts, pictures, emblems can be cut on sheet metal.
• You are one step ahead by providing technical and time advantages.
DIMENSIONS OF SHEET METAL THAT CAN BE CUT
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Working Area: 1500 x 3000 mm
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Power : 6 kW
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Carbon sheet è up to 25 mm thickness
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Stainless sheet è up to 12 mm thickness
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Aluminum sheet è up to 10 mm thickness
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Brass and Copper è up to 8 mm thickness