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CNC Laser Cutting: Why We Choose Fiber Over CO2

Due to customers’ stringent design and manufacturing requirements, the demand for more sophisticated machining technologies has remained constant over the years. In today’s world, CNC sheet cutting has been one tool that has helped machinists meet these requirements.

Laser cutters are CNC machines that use a laser beam to engrave, cut, mark, or mark a material using computer numerical control. The cutting of intricate shapes and holes is particularly accurate; it is highly accurate due to its unique design and operation.

There are 2 processes involved in CNC laser cutting, and we will explain their differences in this article. 

What is Fiber laser cutting?

What is fiber laser cutting?

A fiber laser CNC steel cutting process utilizes a solid-state laser that bead melts and pierces metals, resulting in a clean, precise, and efficient metal cut. This technology uses optical fibers instead of gas or crystals as a laser medium, hence fiber laser cutting. 

As lasers produce concentrated light, optical fibers can increase this intensity, which is why fiber is used to elevate lasers to higher powers.

Fibre laser cutters can cut a range of materials and thicknesses depending on the capacity of the equipment. Most fiber laser machines can cut up and cut stainless steel up to 10mm thick. 

What is CO2 Laser Cutting?

What is CO2 Laser Cutting?

High-intensity light particles are created by colliding light particles created by CO2 lasers. These light particles collide with each other to create high-powered particles that can cut through thicker materials relatively easily.

Contrary to fiber lasers, CO2 CNC metal cutting operates differently by using reflection and refocusing rather than focal lenses like fiber lasers, and the beam path delivery system works differently from the fiber lasers.

CO2 lasers are generally more cost-efficient than fiber lasers. Although it is cheaper in the short term, it is still more economical in the long run. Operating costs can be very high for CO2 lasers since they consume a lot of energy.

What is the difference between CO2 and Fiber Laser?

difference between CO2 and Fiber Laser

The debate between CO2 and fiber laser requires careful consideration of various factors. A number of factors must be considered, from energy sources and light wavelengths to the cutting process parameters, such as speeds and precision. 

The following is a head-to-head comparison of fiber vs. CO2 lasers that addresses your questions.

 

  • Power Source
Fiber lasers emit light from LEDs, concentrating it with fiber optical lenses to amplify it. 

However, CO2 lasers generate waves that are powerful enough to cut through different objects easily by stimulating mixtures of gases such as CO2, N2, and Xe.

  • Energy Consumption
A fiber laser has extremely high efficiency. Compared to CO2 lasers, fiber lasers consume 30% less power, enabling them to complete tasks more quickly and with fewer resources.
  • Light Wavelengths
Infrared lasers such as CO2 and fiber work on the same wavelength. In general, CO2 lasers emit wavelengths between 10,600 nm and 2200 nm, while fiber lasers emit wavelengths between 780 and 2200 nm.
  • Speeds of cutting
Regarding thinner workpieces, fiber lasers offer much better-cutting speed. The speed of 2 KW fiber lasers is usually comparable to that of 5 KW or 6 KW CO2 lasers. Because fiber lasers have such a high power density, they are mainly responsible for this. CO2 lasers are slower than optical lasers because their power is concentrated at a single point.
  • Precision in cutting
Fiber lasers are better when we talk about the exact stability and precision that can be achieved. The manufacturing sector pays attention to another aspect of precision, which relates to the edge smoothness of CNC cutting sheets. As a result, CO2 lasers are much better in this area, so you should decide which is more appropriate for your needs.
  • Cutting Range
Regarding metal sheets, fiber laser machines have a cutting range that can go as far as 13mm on a single sheet. The high-speed versions can cut aluminum up to 30mm, but they are extremely expensive.

In contrast, CO2 lasers are limited only by their power. CO2 lasers can cut through various widths depending on their wattage.

  • Ease of use
Fiber lasers are relatively simple compared to CO2 lasers. They do not require any complex or complicated systems, which also makes them easier to operate as well as learn to operate.
  • Costs of investment
CO2 and fiber lasers require different initial investments. The technology is fairly new, and only a few manufacturers manufacture fiber lasers. Fiber lasers are, therefore, quite expensive. However, the machines you need for CO2 lasers are less expensive than those for other lasers because they’ve been around for a while.

 

What applications can be cut with a fiber and CO2 Laser?

Lasers based on CO2 have dominated the market long and have been around longer than fiber lasers. The development of fiber lasers, however, has led to an increase in the number of companies replacing their CO2 machines with fiber lasers due to the advent of fiber lasers.

Traditionally, CO2 lasers have been used in pharmaceutical manufacturing, food production, electronic component fabrication, fabric cutting, and building industries. In recent years, fiber lasers have gained popularity due to their excellent cut quality, high precision, and rapid cutting speeds in the medical, aerospace, automotive, and electronics industries. 

How to choose the right type of machine for you and your business

A CNC laser cutting service specializing in laser cutting would seem to be best regarding the total cost of purchase, maintenance, and operation. Due to its focus on consistency, quality, and competitive price, RP Lasertech has a tremendous reputation in the market.

You can cut whatever metal you utilize with our high-performance fiber or CO2 laser cutters to create high-quality, precision parts that satisfy your customers.

From an industry-leading manufacturer of metal fabrication equipment, we offer fiber laser cutting and CO2 laser cutting systems that offer a range of innovative features:

  • Sizes and speeds to suit any need
  • Provide a wide range of capabilities, including automation
  • Faster throughput, higher accuracy, and better parts
  • Reduce waste by helping
  • Achieve maximum productivity and profitability

Final Thoughts

RP Lasertech‘s engineers are available to discuss the specific requirements for CNC cutting metal sheets and how we can help you meet them with the right CNC cutting machine for your needs.

Which Metal Cutting Method Is Better? CNC Laser Cutting vs Plasma Cutting

Laser and plasma cutting are the two most popular methods of CNC cutting metal sheets in the metal industry. Here is a quick guide and insight into how each technique works.

What Is a Plasma Cutting? 

Plasma Cutting

Developed as an alternative to flame cutting in the 1950s, plasma cutting is the oldest form of cutting. Electrically ionised gases are fired from nozzles at high speeds toward the workpiece of the plasma laser cutter to superheat and ionise them during plasma cutting. The gas then forms an electrical arc. This electric arc creates electrically conductive plasma channels by ionising some of the gas. This plasma is heated by electricity as it travels down the cutter torch, melting through the workpiece. Hot molten metal is blown away by plasma and compressed gas.

Plasma Cutting – Advantages and Disadvantages

Advantages:

  • It can achieve a faster cutting speed than CNC sheet cutting and flame cutting for a medium-thick plate, much faster than laser cutting or flame cutting.
  • It is cheaper to invest in this equipment initially, and it requires much less future maintenance.

Disadvantages:

  • Plasma metal cutter surface perpendicularity is poor: there is a large oblique cutting edge on one side of the cutting surface, and the surface is not perpendicular.
  • Increase the production of cutting slag: cutting slag will accumulate at the bottom of the cutting surface during the cutting process. It is necessary to grind away this slag, which increases labour costs as well, so as not to affect the post-processing quality.
  • Plasma cutting produces dust and arc light: Plasma cutting generates harmful gases and arcs during the cutting process.

What Is CNC Laser Cutting?

CNC Laser Cutting

Developed in the 1960s, CNC laser cutting is a technique for cutting holes in diamond dies. In this process, high-power lasers burn, melt, vaporise, or blow away materials through oxygen, nitrogen, and compressed air. Laser beams are emitted from tubes, reflected by mirrors, and guided into the laser head. When you cut or engrave something with this machine, a lens inside the head focuses the beam on the surface of your CNC cutting sheet. A laser can either be a fiber laser or a CO2 laser.

Cost, Quality, Technology used, Precision

CNC Laser Cutting – Advantages and Disadvantages

Advantages 

  •  It is possible to weld directly from the cut surface without grinding if there are small cuts.
  • This process allows thin sheets to be cut at 10 meters per minute, much faster than plasma cutting.
  • The exceptional cutting quality is characterised by a small amount of deformation, low surface roughness, and a low degree of oblique cutting.
  • With a positioning accuracy of 0.05mm and re-positioning accuracy of 0.02mm, the positioning system has a high level of precision.
  •  The machine can cut many materials, including metal, wood, plastic, rubber, PVC, leather, textiles, and organic glass.

Disadvantages:

  • Cost is the number one factor.
  • Investing in the first place and maintaining it later require higher costs.
  • Currently, laser cutting is more cost-effective for thin plates.
  • Due to the low efficiency when cutting thick plates, laser cutting isn’t suitable unless high quality is required.

Key Differences between laser cutting and plasma cutting

There are fundamental differences between plasma cutting and CNC plasma cutter. The plasma-cutting process uses plasma, while the laser-cutting process uses amplified laser light.

Parameters Laser Cutting  Plasma Cutting 
By Principle On the other hand, the laser cutting process involves the generation of laser beams by laser devices. To transmit laser beams, a series of reflectors are used. Once the beam has been focused on the workpiece, it is directed by a focus lens. Using the laser beam, you can create a smooth, high-quality surface finish by heating and melting the focal point. Depending on the material, plasma cutting uses compressed gases such as oxygen, air, or inert gases. In this process, a plasma channel is artificially created through the workpiece. Due to the high temperature of the plasma, any object, no matter how thick, can be melted, evaporated, or burned.
By Application Lasers have higher precision, direction, and intensity than lasers, which require no post-processing. It is also more cost-effective to use plasma cutting rather than CNC steel cutting. Plasma-cut material’s range of options is limited compared to a laser-cut material’s wide range. Cutting thin sheets with lasers is better than cutting them with plasma. A plasma cutter is used when the following characteristics are needed: a small deformation, a quick cutting speed, a narrow cutting slot, and a small heat-affected area.
By Cost Laser cutting is typically more expensive than plasma cutting, but it offers greater detail. Lasers can therefore be used to engrave details on metal or cut out small shapes. Plasma, on the other hand, is less costly and is better for simple cuts. The plasma cutters can easily cut through thicker sheets of metal.
By Material Lasers cutting technique is widely used in cutting wood, plastic, glass, and many other materials. While only conductors of electricity can be cut by plasma. Because Instead of using an optical beam to create cuts, plasma uses electrically conductive gas.

Which one to Use-Laser or Plasma?

There are many factors to consider when choosing a material, such as its thickness and type. A laser cutter offers greater accuracy and consistency, while a plasma cutter offers more versatility and requires a lower initial investment.

Laser cutters are suitable for thin or medium-thick parts with tight tolerances, high-precision cuts, or parts with tight tolerances.

Common uses for plasma cutters include cutting parts made of metals with high reflective properties, cutting parts made from thicker materials, and cutting simple shapes.

Conclusion

There is no one-size-fits-all approach when it comes to projects. We may choose to use a laser CNC machine or a plasma cutting machine depending on our time and budget constraints. In addition, how we get to the end product depends on the thickness and material of your project. Therefore, you can be sure that the final product will meet your expectations! Let a leading CNC laser cutting service like RP Lasertech’s experienced fabrication team know about your next project today!

CNC Laser Cutting: How Industries Use and Benefit from It?

Summary

Laser cutting is revolutionizing the construction sector by offering efficient, contemporary solutions for manufacturing metal parts. Due to its capacity to increase production speed, operational control, and efficiency, businesses are increasingly selecting laser cutting fabrication.

Therefore, as laser cutting experts, RP Lasertech can assist you with your laser cutting needs regardless of your sector, industry, or business.

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Using a laser to cut, score, engrave, or otherwise modify physical materials is known as laser cutting. CNC Laser cutting services have been a part of our lives for many years despite how futuristic they may sound. Its application was first restricted, like many innovations, but many businesses have enthusiastically embraced it.

Nowadays, using a laser cutter can be simple. Even if incredible acts of creativity created the technology, the user interface has evolved to be approachable. Laser cutter use is widespread among school enthusiasts, corporations, and science classes. They are not only practical but also an amazing method to learn about optics and the characteristics of light.

Benefits of Laser Cutting

As technology advances and more applications find it useful, its advantages keep expanding in quantity. A significant portion of the sectors in the world benefits from the amazing technology known as laser cutting. Here is a list of the current reasons why it is so well-liked:

  • It is Adaptable

In terms of materials, it is adaptable. There is no substance or even class of materials on which laser cutting cannot be used. Numerous CNC-cutting metal sheets, ceramics, and other materials are suitable for laser cutting, continually finding new uses.

  • Kerf widths are small to enable rapid and precise cutting

With laser cutting, the kerf width can be exceedingly small, resulting in reduced material waste, more accurate cuts, and more efficiency. Additionally, laser cutting has comparatively rapid turnaround times. Furthermore, precise repetition of shapes, patterns, and operations is possible. The robotics used in laser cutting is extremely advanced. You can be sure that laser cutting will generate high-quality results if a process calls for automation or repetition.

  • The technology works well, and setup takes little time

Laser cutters are now quite dependable thanks to technological advancements, so you don’t have to worry about your equipment breaking down. It avoids delays and backups. Designing your product is quick and simple, thanks to programs.

  • It is simple to make changes in the middle of production

Laser cutters can immediately reorient and adjust to the change in demand if you discover during production that you need more, less, or a slightly different variety of a product.

  • Processing Moves Quickly

You can use laser cutters to accomplish numerous tasks simultaneously, overlap multiple projects, or carry out other non-standard tasks.

  • Laser Cutting does not Produce a Mess

Most materials don’t require cleaning after being laser-cut. Your items won’t need to be deburred or sanded down because laser cutting leaves them smooth. You can often remove the product from the cutter and mail it.

  • Technology is constantly improving and going greener

Although laser cutters require a lot of energy, they are becoming incredibly efficient. Additionally, fibre-optic lasers are gradually taking the place of CO2-based lasers.

  • The Potential for Combining with 3D printers is enormous

The growth of 3D printing is similar to that of laser cutting. Shortly, it’s conceivable that the two technologies will come together to provide amazing possibilities.

Applications and Uses of Laser Cutters

  • Metals

In addition to working on various metals, laser cutting is a tool that one may use in various industries. A laser cutter can automatically produce many metal parts for cars, computers, and other devices because it can be controlled and directed by a computer, just like machining. Compared to machining, laser cutting can provide cleaner and more precise cuts. Metal sheet CNC Cutting involves numerous different procedures. Results are frequently superior to those of plasma cutting. Frequently, unusual structures like auto frames or hydro-formed parts require laser cutting, as do many components in the aerospace sector.

  • Reflective Metals

Given that metals have already been discussed, why bring them up again? Because reflective metals reflect light onto themselves, using a strong laser beam to illuminate them causes problems. The metal may self-destruct if it reflects the laser.

Fibre laser cutting provides the solution to this issue. This method uses fibre optic cables to send the laser beam to the metal. The fibre optic cable is unaffected by any light that is reflected. Reflective metals are essential for manufacturing vehicles and semiconductors, including aluminium, silver, copper, and gold.

  • Medical Sciences

In the medical sector, where extreme precision and close dimensional tolerances are crucial, laser cutting also plays a significant role. This technology fits their requirements because it can copy designs with accuracy and a speedy turnaround. After all, the medical business demands high volume.

Laser cutting has been used to create components for surgical implants and various medical equipment, including orthopedic and cardiovascular devices. Laser cutting can produce these devices with the necessary speed and accuracy.

  • Engraving and Marking

The domain of engraving and marking is where laser cutters are used in a slightly less graphic manner. The laser cutter also usually hits the mass market at this point. Several metal signs, logos, and other works are created through engraving and marking. Jewelers typically use laser cutters for engraving needs.

  • Silicon

Our world is mostly powered by silicon. It is a component of our solid-state semiconductors, microchips, and other electronic and computer-related products. It also has a significant presence in the crucial area of solar energy, which has the potential to increase the power of our planet. It is difficult to overstate the significance of the technology because laser cutting is one of the main methods used to prepare silicon for usage.

The laser cutting of silicon is one of the reasons technology keeps getting smaller and more powerful. Because laser cutters have improved in accuracy, they can now cut silicon into ever-tinier fragments.

Industries that Use Laser Cutting

  • Aerospace

Aerospace

Due to the accuracy and versatility required for mechanical devices and construction, this enormous industry is among the major users of precision engineering. In addition to making airplanes, this industry uses laser cutting to make anything from combustor liners to trolleys, conveyors, stillages, and metal detectors. 

Drilling and cutting incredibly small holes and pieces are required. It is frequently necessary to cut heavy-duty aluminum alloys with a low heat-effect zone and a perfect finish. Lasers can only meet these needs. Laser drilling and engraving frequently combine to generate unbeatable results in this business.

  • Security & Electronics

Security&Electronics

It seems sensible that security cameras and their systems can benefit from laser cutting, given the exact nature of the parts and materials needed for electronics. The security and electronics industry demands speed, precision, and a quick turnaround on many parts, from the tens of thousands of door handles and seals to the hundreds of computer mounting brackets. 

  • Construction

Construction

It’s not a surprise that laser cutting is crucial to the construction industry. If you work in architecture or construction, you can understand how many components and pieces of machinery are needed to complete any building project. You might be surprised to learn that laser cutting has many applications in this industry.

Laser cutting offers the chance to access custom-designed works quickly and stock items, from pipework to tools and even toolboxes to the sculptural work included in the walls as an architectural feature.

  • Automotive

Automotive

Laser cutting can offer this industry precision product at affordable prices and quick lead times, from stainless steel parts and panels from mild steel that has had its zinc coating removed to tool components used in heavy engineering transport, agriculture, marine, railway, and the maritime industry. Although laser cutting is used to make the majority of car chassis, there is still room for more! Other automotive and transportation organizations should utilize this quick and accurate instrument, as we do when making interior parts for vehicles out of mild steel that has been laser cut!

  • Furniture & Lighting

Furniture&Lighting

Laser cutting is the future of this industry in the design process for furniture and lighting, whether batch produced for retail sales or custom-made. Because of its accuracy and flexibility with CAD programming, laser cutting can revolutionize your design and manufacturing processes. A variety of sophisticated designs can be sliced into CNC sheet cutting using a laser cutter to make furniture such as tables, chairs, benches, and lighting fixtures.

  • Energy & Utilities

Energy&Utilities

Energy firms’ power plants and call centers in office buildings already use laser-cut metal for desks, building sidings, and electronics. But by utilizing laser cutting, one may accomplish more in this industry. For instance, we contributed to converting the Draks Power Station into a biomass-based renewable energy power station. By utilizing laser cutting more frequently in this industry, incredible advancements in renewable energy and power efficiency can be made.

Please book an appointment for more information on metal sheet CNC cutting.

Safety Tips to Follow When Using CNC Laser Machine

Due to their increased shop productivity, CNC cutting sheet through laser machines is becoming increasingly popular. High-tech is very user-friendly and simplifies the lives of the employees. However, if someone doesn’t know what they are doing, they risk hurting themselves. Every worker should know the following safety precautions while CNC sheet cutting via CNC laser machine.

How does CNC laser cutting work?

CNC laser cutting is a thermal-based, non-contact method. A CNC laser cutter has a laser head with a nozzle and a laser focusing lens. This head and lens assembly focus a laser beam-column of extremely intense light through the nozzle onto the workpiece, melting and cutting it to the desired shape. Compressing gas is used in CNC lasers to cool the focusing lens and expel the evaporated metal from the workpiece while also passing through the nozzle that ejects the laser beam.

The heat density at a location on a metallic surface that is the focus of a strong laser beam increases, causing fast heating and partial vaporization of that point on the metal. Creating the appropriate customs forms and features is supported by CNC technology that coordinates the movements of this laser head and beams in the work area.

Five Safety Tips to Follow

Safety is of utmost importance when operating CNC laser machines as they can be very damaging if safety measures are not followed. Here are a few safety tips that should be followed while operating a CNC laser machine.

  • Never Leave Your Laser Unattended When Firing

Never Leave Your Laser Unattended When Firing

A laser cutter uses strong lasers that could catch fire in an accident or catastrophe. Accidents can occur when people use the cutter carelessly. The operator should monitor the operation whenever the machine is firing. There should be more than two operators working the machine because smaller projects take less time to complete, and larger ones can take several hours. If the first operator needs a break, the other operator can step in to continue inspecting the machine while it is firing. If you leave the laser cutter alone while firing, serious harm is dangerous.

  • Never Cut Material with Unknown Properties

Never Cut Material with Unknown Properties

The qualities of different materials vary so greatly that a laser cannot cut on all sorts of materials. For instance, some lasers are designed specifically for use with paper and wood, while others work well with toles and PVC. Avoid using the machine to cut just any material because doing so could harm or cause fumes to fill your workplace.

A ventilation system is included with laser cutting machines to ensure a smooth operation. Cutting materials like PVC and other polymers without a ventilation system can produce dangerous fumes that are fatal if inhaled. 

  • Always Keep A Clean Workshop

Always Keep A Clean Workshop

Laser cutting safety and cleanliness go hand in hand to reduce the danger of injury. Even though the material cut by laser cutters is entirely dissolved, there is still a risk of fire if the remaining scrap is allowed to remain in the catch-bin. The majority of people are unaware that little particles of chopped materials, like sawdust, in the air can catch fire and explode. The likelihood of accidents and other major laser cutting safety issues is decreased by maintaining a tidy and clutter-free workspace.

  • Be Informed

Be-Informed

The operator should always know how to operate a laser cutter and engraver before using one safely. Before utilizing any equipment, the worker should read the user manual carefully to comprehend all safety considerations.

Knowing your equipment and reading its handbook can help you determine whether, for instance, eye protection is needed to operate your specific laser cutter safely. That being said, workplaces should display warning signs to alert people to safety hazards and adequately designate safety gear, such as fire extinguishers and eyewash stations close to the area with lasers. 

  • Be Alert

Be-Alert

When using any gear, including lasers, it’s crucial to keep safety in mind constantly. Utilize best practices daily by emphasizing safety before beginning a project and avoiding carelessness when operating your laser cutting equipment. Be mindful of your surroundings and regular working routines. You can always contact the technical support of your supplier and conduct a check before using the laser. If there is ever any risk involved regarding the security of a specific substance or aspect of your machine’s operation, you should always have an emergency plan and look for potential safety hazards.

Conclusion

It is of utmost importance to follow the safety precautions to operate a CNC laser machine safely and avoid accidents or mishappenings. For premium CNC laser cutting services, you can contact RP Lasertech. We offer metal sheet CNC cutting services at affordable rates and work with safety to deliver quickly and with precision. Our magnificent laser cutters and the team of professionals work together to deliver the best in the market. Give us a call today. 

What is a CNC Laser Cutting? How it Works, Types & Advantages

A CNC laser cutter is a chunk of machinery that employs a concentrated, powerful laser beam to mark, chop, or engrave a material to design certain forms. Particularly when cutting delicate forms and tiny holes, its distinct design, and operation make it extremely accurate.

How does CNC Laser Cutting Works?

How-does-CNC-Laser-Cutting-Works

A CNC laser cutter has a laser head with a nozzle and a laser focusing lens. This head and lens assembly direct a laser beam—a column of extremely intense light—through the nozzle onto the workpiece, melting and cutting it to the required shape. Compressed gas is used in CNC lasers to cool the focusing lens and expel the evaporated metal from the workpiece while also passing through the nozzle that ejects the laser beam.

Types of CNC Laser Cutter

Types-of-CNC-Laser-Cutter

The sorts of lasers used in the machines account for the variations in CNC metal cutting laser cutters, and the type of laser affects the types of materials that the laser can cut and the thickness of those materials. Typically, a powerful laser is best for business purposes.

  • Gas Lasers/C02 Laser Cutters

CO2 that has been electronically stimulated is used to cut. Other gases like nitrogen and helium are included in the mixture that creates the CO2 laser.

Due to their effectiveness, low cost, and ability to cut and raster various materials, CO2 lasers are the most used laser cutters. These lasers can produce a smoother finish when used to cut thicker materials. A CO2 laser’s wavelength is 10.6 mm, and compared to a fiber laser of the same power, a CO2 laser has more energy to cut through thicker materials.

  • Crystal Laser Cutters

Beams made of nd: YVO (neodymium-doped yttrium ortho-vanadate) and nd: YAG is produced by crystal laser cutters (neodymium-doped yttrium aluminum garnet). They have shorter wavelengths than CO2 lasers, meaning they have a higher intensity, allowing them to cut through thicker and stronger materials. However, because of their enormous strength, their parts deteriorate quickly.

  • Fiber laser cutters

Fiberglass is used in this instance for cutting. The family of “solid-state lasers” includes disc lasers, and nd: YAG includes fiber lasers. The “seed laser” is the source of the lasers, which are then amplified using specific fibers. 

Fiber lasers are two to three times more energy-efficient than gas lasers, have no moving parts, and can cut reflective materials without caring about back reflections. Despite being roughly comparable to neodymium lasers, fiber lasers need less upkeep. Consequently, they provide a less expensive and durable option than crystal lasers. Both metal and non-metal materials are compatible with these lasers.

What Are the Advantages of Laser Cutting?

What-Are-the-Advantages-of-Laser-Cutting

  • Flexibility

With laser cutting, there is no requirement to switch out tools for every cut. A similar setup can be used to cut numerous different forms from the same material thickness. Furthermore, complex cuts provide no issues.

  • Precision

Accuracy is one of the main benefits of laser cutting compared to other thermal cutting techniques. One can attain high precision without post-treatment with an accuracy of +/-0.1 mm. Such a high quality typically negates the need for further tolerances.

  • Repeatability

Parts nearly duplicates of one another are guaranteed with +/- 0.05 mm.

  • Speed

The laser cutter’s capability ultimately determines the precise advantage point. Compared to conventional mechanical cutting techniques, laser cutting is much faster, particularly when it comes to trickier cuts. Up to a thickness of around 10 mm, the laser outperforms conventional thermal cutting techniques like plasma or flame cutting in terms of speed.

  •  Automation 

Modern laser cutting technology is highly automated; thus, the job requires little human labor. While an expert machine operator still contributes significantly to the end product’s quality, the cutting speed and minimal manual labor requirement lead to cheaper costs than those associated with other cutting techniques. Even feeding systems and follow-up conveyors are standard equipment on many machines. Of course, such configurations result in a more expensive laser cutting machine.

  • Quality

Laser cutters only leave a little burr when properly set up. In many cases, it is not even essential to remove it. Yes, the material, its thickness, and other elements play a role. Having a limited heat-affected zone is an additional benefit. A narrower HAZ area produces more predictable and dependable parts as the microstructure and the HAZ change.

  • Contactless Cutting

Only the laser beam touches the material when cutting with a laser. Since there is no mechanical friction, tools won’t become worn out.

  • Versatility

One of the most significant features of laser cutting’s excellence is this. There are two ways adaptability shows up. Many different types of materials can be sliced using laser technology. Various metals, acrylic, MDF, wood, paper, and other materials are among them. We can configure different tasks onto a single computer. Of course, the power of your machine will determine your capacity to cut some of these materials.

Many laser cutters can do more than just cut things. Another application for these devices is laser branding. Additionally, there are numerous uses for marking when creating common products. The technique is also appropriate for a range of profiles.

Conclusion

CNC Cutting metal sheet services, whether it be steel, aluminum, brass, or nickel, are one of the most popular uses for lasers because they produce precise cuts and finishes. Laser cutting is widely used in the semiconductors, electronics, medical, aircraft, and transportation sectors. Lasers are also used to cut silicon, ceramics, and non-metals.

Give us a call for the Best CNC laser cutting services or check out our website for more information & assistance.

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