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For the best laser cutters in 2022, check out our buyer's guide. Accurate, reliable, and well-established, with excellent service and support at a reasonable cost. We'll provide you with the unique an



Are you looking for Makeover laser cutter equipment proposals or an affordable laser cutting machine for metal, wood, plywood, cardboard, die-board, chipboard, fabric, textile, leather, paper, acrylic, polymer, plastic, foam, and rubber for home use, small business, hobbyists, commercial use, school education, or industrial manufacturing in the United States, United Kingdom, United Arab Emirates, Canada, Australia, Russia, South Africa, China, India, or other countries? Check out our buyer's guide for the best laser cutters in 2022. These guidelines are provided by Dongguan Base Automatic Technology Co., Ltd. for craftsmen, machinists, operators, and beginners. We'll provide you with the best and highest quality laser cutting machines at a low cost that fits your budget, as well as custom laser cutting service and support to fit your 2D and 3D laser cutting plans, ideas, and projects. 


What Is a Laser Cutting Machine? 

Laser cutter machines are used for precision cutting and design work in a variety of sectors. It's a CNC-controlled laser cutter that uses a CO2 or fiber laser beam to cut metals (steel, copper, brass, aluminum, gold, silver, alloy, iron), acrylic, rubber, wood, plastic, leather, paper, foam, cloth, and fabric into 2D or 3D shapes and profiles. The beam will either burn, evaporate, or melt away the extra product, leaving a superior completed pattern or edge. It is more commonly employed for industrial manufacturing applications.


The computer numerical control (CNC) settings of a laser cutting machine, as well as laser optics, control and guide the intensity of the laser beam for the desired design effect, or the exact cuts necessary in a manufacturing or design project. A laser beam is created by a process in which electrical discharges or light cause a chemical reaction in a lasing material within a confined container, resulting in the release of a high-powered beam. 


How Many Different Laser Cutters Are There? 

The types of lasers in laser cutters define the type of material thickness the laser can cut, and the type of laser determines the type of material thickness the laser can cut. In general, a high-powered laser is best for professional applications that require cutting large portions of plastic or metal. A low-power laser, on the other hand, is suitable for thinner materials such as plastics, card stock, paper, and wood. 


The following are the three basic types of lasers: 

  1. Gas Lasers/C02 Laser Cutters

CO2 lasers have a wavelength of 10.6 mm and have enough energy to cut through thicker materials than fiber lasers of the same power. When used to cut thicker materials, these lasers can produce a smoother finish. The most prevalent types of laser cutters are CO2 lasers, which are efficient, affordable, and capable of cutting and rostering a variety of materials. 

Materials Example: Glass, some plastics, some foams, leather, paper-based products, wood, and acrylic are some of the materials used. 


  1. Crystal Laser Cutting Machines:

Crystal laser cutters produce neodymium-doped yttrium ortho-vanadate and neodymium-doped yttrium ortho-vanadate beams and neodymium-doped yttrium aluminum garnet. Because they have shorter wavelengths than CO2 lasers, they can cut through thicker and stronger materials. This implies they have a higher intensity. However, because of their great power, their components wear out quickly. 

Examples of materials include plastics, metals, and ceramics. 


  1. Fiber Laser Cutting Machines:

Cutting is done using fibreglass in this case. The lasers are generated by a "seed laser" and then amplified using specific fibers. Fiber lasers are part of the "solid-state lasers" family, which also includes disk lasers and ND: YAG. Fiber lasers have no moving components, are two to three times more energy-efficient than gas lasers, and can cut shiny materials without worrying about back reflections. Metal and non-metal materials are both compatible with these lasers. 

Fiber lasers, while similar to neodymium lasers, require less maintenance. As a result, they provide a less expensive and longer-lasting alternative to crystal lasers. 

materials, for example, plastics and metals. 



How Does Laser Cutting Work? (------) 

Laser cutting uses a high-powered laser that is guided by optics and CNC to direct the beam or material. A motion control system is typically used to follow a CNC or G-code of the design to be cut onto the material. To leave a high-quality surface completed edge, the focused laser beam burns, melts, vaporizes, or is blasted away by a jet of gas. 

The beam of a laser cutter normally has a diameter of 0.1 to 0.3 mm and a power of 1 to 3 kW. Depending on the material being cut and its thickness, this power must be adjusted. Cutting laser outputs of up to 6 kW may be required to cut reflective materials such as aluminium. 


The following are some of the most important parts of a laser cutter: 



  • The Laser Reflector: A laser reflector is an airtight glass tube with two mirrors facing each other that emits a laser beam. C02, as well as other gases such as hydrogen, nitrogen, and helium, are pumped into the tube. Diodes, or electric discharges that emit energy in the form of light, activate the mixture of gases. 



  • The Cutting Unit: Light bounces in diverse directions with the help of multiple carefully placed mirrors, ensuring that it reaches the laser cutting head. When the beam reaches the cutting head, it is magnified and concentrated into a single point by a curved lens. The laser is converted into a thin, narrow beam that can cut or raster within this cutting head. Before striking the plate, the focused laser beam goes through a nozzle that also contains compressed gas such as nitrogen or oxygen. If you're cutting aluminium or stainless steel, for example, the laser beam will melt the metal before the molten metal is blown out of the kerf by highly compressed nitrogen. The cutting head is usually coupled to a mechanical system that is driven by a chain or belt, allowing it to perform precise motions within a small region. 



  • Cylinder Spacing: A precise distance between the plate and the nozzle is maintained at all times. This area is significant since it determines the focus point. Changing the focal point usually has an impact on the cut quality. The intensity and speed of the beam are two other factors that can influence the cut quality. 


Three Important Laser Cutting Techniques: 


Fire/Reactive Rutting: The support gas in fire rusting is oxygen, which is blasted into the kerf at high pressure (up to six bar). When a hot material (in this case, metal) comes into contact with oxygen, it begins to burn and oxidize. This reaction produces extra energy, which helps the laser beam. 

Plasma Trimming and Hit: Molten material is blown out of the kerf by an inert gas (usually nitrogen), lowering the amount of power required. The substance is heated till it reaches its melting point, then blown out by gas. 

Distant Cutting: By partially evaporating (ablating) the material with a high-intensity laser beam, thin sheets can be sliced without the use of an aid gas. 


What Is the Purpose of laser cutting? (------) 

Digital Printing, Medical Technology, Fables, Education, Architectural Models, Smart Phones and Laptops, Computers & Electronics, Toys, Watches, Arts & Crafts, Awards, Trophies, Rubber Stamps, Packaging Design, Die Cut, Mold Making, Sign Making, Display Making, Giveaways, Electronics Industry, Automotive Industry, Signage, Mechanical Engineering, Ball Bearing, Jewelry Making, Fabrics, Stencils, Paper Cutter. 


How Do You Use a Laser Cutter? 

First, make sure that all of the laser cutter machine's connections, including the power supply, PC, and exhaust system, are accurate and inserted appropriately. Visually inspect the laser machine's condition. Check that all mechanisms are free to move and that no material is under the processing table. Make sure the work area and optical components are clean and clean them if they aren't.  



  1. Choose the substance you'll be working with. 
  2. Choose the type of cuts you'll make.  
  3. Select appropriate nozzles and lenses, and inspect them to ensure that their appearance and cleanliness are in good working order. Debug the equipment regularly and set the cutting head's focus point to an appropriate location.  
  4. Check and set the equipment's nozzle to the centre position. 
  5. Adjust and tune the laser cutting head's sensor. 
  6. Select a suitable laser cutting gas based on your specific cutting requirements and make sure the jet is in good working order. 
  7. Examine whether the section is smooth and whether the cutting accuracy is correct by cutting the raw material to be cut. Create the visuals to be cut and typeset them before importing them into the cutting system. 
  8. Adjust the cutting head's location. After you've finished all of the preparations, you can begin cutting.  
  9. During the operation, the staff must be present on the site to monitor the equipment's cutting state and, in the event of an emergency, promptly hit the stop button.  
  10. Always clean the guide rails, wipe the rack of the equipment, and frequently apply lubricating oil to the guide rails when the equipment is stopped to ensure that there is no debris; 
  11. To ensure cleanliness, the crew must vacuum the dust and debris from the machine once a week. Every six months, inspect the straightness and verticality of the machine's track, and if any abnormalities are discovered, they must be maintained and debugged as soon as possible.  


What Is the Price of a Laser Cutter? 

The following elements make up the laser cutter cost: (1) laser parts, accessories, and upgrades (2) You will need a laser cutting system as well as laser cutting software. (3) the cost of shipping. Rates of taxation: (5) Clearance through customs. (6) The cost of customer service and technical support for a fiber laser cutting machine ranges between $7,800.00 and $260, 000.00.CO2 laser cutting equipment costs between $2,500 and $69,700.00.  


Why Should you choose Our products? 

Our company specializes in automated mechanical research and development, mechanical machines, and core accessory design and production. The company adheres to four redevelopment concepts: high detail, high quality, and high reputation. We have over 60 products at Dongguan Base Automatic Technology Co. Ltd. including laser plastic welding machines, laser plastic cutting machines, laser soldering machines, laser marking machines, power cord windows, 3C digital cable winding machines, fiber semi-automatic and automatic winding machines, MPO fiber jumper grinder, semi-automatic locking screw machine, energy laser fiber, medical laser fiber, HD video fiber transmission cable, and more. Our consistent idea is to have a high starting point, high quality, high awareness of responsibility, and a good corporate reputation. We are confident that our products and technical services will be well received by friends at home and abroad. Our company understands the importance of lead flexibility. 

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Dongguan Base Automatic Technology Co., Ltd

Room 301, No.1 Juzhou Hehe Street, Shijie Town, Dongguan, Guangdong, China