We are specialized in processing and exporting CO2 vs Fiber Laser TechnologyWhich is right for in China and win high reputations from our customers. CO2 vs Fiber Laser TechnologyWhich is right for in all grades, offer CO2 vs Fiber Laser TechnologyWhich is right for stock,CO2 vs Fiber Laser TechnologyWhich is right for price, Also, CO2 vs Fiber Laser TechnologyWhich is right for can be done more tests according client's requirement.like radiography test, ultrasonic test, macro test, micro test, flare test, flattening tests, etc are conducted.The documents like QAP, heat treatment chart, packaging list, fumigation certification, MTC as per EN 10204/3.1b, EN10204/3.2 third party test report are provided.our steel size range: Steel Plate width 1500-4020mm, thickness 8-700mm, lengt3000-27000mmh.Our current export markets are: Sorth America, North America, Europe,Australia,Africa, Asia, etc.
As the name suggests, the Epilog Fusion Pro fuses together both CO2 and fiber laser technologies. Capable of operating at 50, 60, 80, or 120 watts of CO2 laser power or 30 or 50 watts of fiber laser power, this machine can cut through materials that are both sturdylike metal and marbleand delicate, like fabric and paper.Bystronic News Bystronic Inc.CO2 vs. Fiber Laser Technology Which is right for you? This careful and comprehensive analysis examines not only the cutting equipment itself, but also the impact the new equipment will have on other existing sheet metal fabricating processes.
Aug 15, 2018CO2 Laser Cutting vs. Fiber Laser Cutting - Pros and Cons The rapidly growing science of laser cutting is dominated by two main methods -- carbon dioxide (CO2) laser cutting and fiber laser cutting. Both processes offer increased precision and versatility for shops of all sizes, and the technology is continually evolving toward improved CO2 vs Fiber Laser TechnologyWhich is right for CO2 Laser vs. Fiber Laser How Are They Different? - 3D CO2 vs Fiber Laser TechnologyWhich is right for Jul 07, 2020The dilemma between CO2 lasers and fiber lasers is an interesting one in that it represents a new laser technology with one that has pretty much set the foundation for all types of lasers. CO2 lasers have been around for decades and remain in wide use, demonstrating just how reliable it is as a manufacturing tool.
CO2 Laser. CO2 laser marking uses CO2 gas in a sealed tube as a laser medium. This type of laser is excellent for organic materials like rubber, wood, paper, glass and ceramic. Operating at a 10,600 nm wavelength, they are best for non-metallic materials and most plastics. CO2 lasers can be used for stationary bench-top use or mark-on-the-fly CO2 vs Fiber Laser TechnologyWhich is right for CO2 Lasers vs. Fiber Lasers for Metal Cutting and CO2 vs Fiber Laser TechnologyWhich is right for CO2 lasers and fiber lasers are both important cutting technologies in metal fabrication, but offer distinctly different advantages and disadvantages for fabricators.. CO2 Lasers Pros and Cons. CO2 cutting lasers are an older type of laser technology, which means that in general, the price to acquire them has come down over time, making them more affordable.
Fiber laser operating costs are typically half of what a CO2 system can offer due to the lower electrical consumption and high electrical efficiency of Fiber lasers. One of the latest advancements in Fiber laser cutting is the addition of Beam Shaping technology that changes the beam profile for thick plate cutting with Oxygen.CO2 vs. Fiber Laser - Which One Should You Buy? LaseraxA fiber laser usually has a wavelength of 1,060 nm while CO2 lasers have wavelengths in the 10,600 nm range. In general, fiber lasers have many advantages over CO2 lasers. Tell us About Your Application. Fiber Lasers. Fiber lasers are best suited for high-contrast markings like metal annealing, etching, and engraving.
Nonetheless, CO2 lasers are still the most widely used and broadly sold cutting systems on the market today. Their reputation has been built over many years and, while the earlier mentioned leaps in process technology have benefitted fiber lasers, there have also been important enhancements in CO2 laser CO2 vs. Fiber - Which technology is right for your CO2 vs Fiber Laser TechnologyWhich is right for Apr 16, 2018CO2 lasers are a tried-and-true technology and manufacturers are hesitant to invest so much in something entirely new. If the application fits though, a fiber laser can be a great option. Deciding which machine is right for your shop is a matter of reviewing your applications and materials used.
Oct 29, 2019Other industry observers agree the thickness of the material you want to cut is a major factor in a fiber vs. CO2 decision. In various comparative tests on thin-gauge metals, fiber lasers were definitely faster at 3mm and provided good edge quality. At 4-5mm the cutting speeds were similar.Difference Between Fiber Laser and CO2 LasersWhats the ultimate laser for your application should I choose Fiber laser, also known as Solid State Laser (SSL), or a CO2 laser?. Answer It depends on the type and thickness of the material you are cutting. Why? Due to the rate at which the material absorbs the laser. You need to choose the right laser for your application.
Very hard to be fiber coupled (a special PIR fiber required to get laser radiation into the fiber). Have a limited wavelength of 10.6 uM (10600 nm) (is not suitable for metal etching without special paste). Non-visible radiation (far infrared) from the Co2 laser makes it Direct-diode laser technology advances to take on fiber lasersThere are no YAG-doped fiber optics used to generate the laser in fiber systems and no gases needed to make laser resonators work in CO2 systems. Because its a direct process, direct-diode lasers have a wall-plug efficiency between 40 to 50 percent. The direct-diode lasers beam slightly differs from the other laser technologies as well.
Deep laser engraving is a process that uses a highly focused beam of light to engrave 3D forms into metals. Pulsed fiber lasers are the best tools for deep engraving because they reach the high peak power needed to carve metal surfaces.Fiber Lasers vs CO2 Lasers A Comparison from SPI LasersCO2 lasers. Here are the advantages and disadvantages of a CO2 laser, which will cover many of the points above as a direct comparison. The main disadvantages that a fiber laser faces in comparison to a CO2 laser relates to cutting speeds of thicker materials; generally anything above 5mm in thickness.
Advantages of CO2 Laser Technology. Higher cutting speed with thicker materials and straight lines. Faster piercing times. Smoother finish when cutting thicker materials. Lower initial cost. Because they are newer, fiber lasers are more expensive than CO2 lasers. As a result, fiber lasers may simply be out of reach for smaller operations.Fiber laser vs CO2 laser a comparison El.En CO2 LaserFiber laser vs CO2 laser a comparison One of the most frequently asked questions we receive on this blog is about the difference between fiber optic Lasers and CO 2 Lasers . These are the two types of lasers most used for industrial application.
CO2 lasers are gas lasers. They electronically stimulate a carbon dioxide gas mixture to leave a permanent mark on the surface. This technique enables the engraving of elaborate designs, logos, dates, or text onto the surface of the product. The advantages of fiber laser marking. Fiber lasers are a form of solid state laser.Fiber or CO2 Laser Marking TechnologiesWhich is Better CO2 vs Fiber Laser TechnologyWhich is right for CO2 lasers are gas lasers. They electronically stimulate a carbon dioxide gas mixture to leave a permanent mark on the surface. This technique enables the engraving of elaborate designs, logos, dates, or text onto the surface of the product. The advantages of fiber laser marking. Fiber lasers are a form of solid state laser.
The fiber laser is already bringing in new business of this type, which the subcontractor had to turn down before. The 3 kW fiber laser machine has a compact footprint of slightly over 10 x 6 M, a 3048 x 1524 mm cutting area and a maximum simultaneous positioning speed of 140 m/min, with axis acceleration of up to 12 m/s 2. The model purchased CO2 vs Fiber Laser TechnologyWhich is right for Laser types in comparison CO2 laser vs. fiber laserLasers are everywhere these days. There are many different types of laser machines that are used to engrave, etch or mark, and cut a broad range of materials in many different industries. At the heart of each laser machine, there is a laser source. CO 2, fiber and vanadate lasers are among the most widely used. Each laser source has its own set CO2 vs Fiber Laser TechnologyWhich is right for
CO2 vs. Fiber Laser Technology Which is right for you? This careful and comprehensive analysis examines not only the cutting equipment itself, but also the impact the new equipment will have on other existing sheet metal fabricating processes.CO2 vs Fiber Laser Technology Which is right for you?Over a relatively short period of time, we have seen the advances in Fiber laser cutting technology. It is for cutting flat metal sheets and plate. In just five years, Fiber lasers achieved the 4 kW cutting threshold. But, the CO2 lasers approximately costed four times as long to reach. After ten years, Fiber lasers have achieved the 10 kW to 12 kW range. And the CO2 laser
The primary advantages of cutting flat sheet metal with Fiber laser technology are derived from its monolithic, Fiber-to-Fiber, compact solid state design configuration that is maintenance free and provides a lower cost of operation than can be achieved with comparable CO2 lasers. Fiber laser beam characteristics also provide for much faster cutting speeds than CO2 as we will CO2 vs. Fiber Laser Technology Which is right for you CO2 vs Fiber Laser TechnologyWhich is right for Evolution of Fiber Laser Cutting Technology. Fiber laser cutting has been one of the most disruptive technologies introduced to the metalworking market since CO2 lasers were first introduced for cutting in the 1980s. Fiber laser technology is considered a disruptive and revolutionary change because it has impacted the entire status quo in sheet metal fabrication.
While fiber lasers will certainly outperform CO2 in the thin material range below 1/8 in thick, CO2 lasers will outperform fiber in the thicker material ranges above ¼ in. Fiber can cut copper, brass and aluminum much better and more safely than CO2 because the beam is more readily absorbed and not reflected.Comparing CO2 and Fiber Laser Cutting Thunder Laser USAMany factors are involved in choosing a CO2 vs a fiber laser cutting machine. The speed necessary to complete the project is sometimes a primary consideration. The CO2 laser cutting speed is typically the faster option, especially for thicker materials. When precision is the primary consideration, the fiber laser is usually the better choice.
Jan 14, 2021Fiber Laser Marker vs. CO2 Laser engraver. The concept of marking is slightly different from that of engraving, although people tend to confuse them. Fiber laser markers are primarily made for marking metals due to their superior capacity to deliver permanent marking on Some results are removed in response to a notice of local law requirement. For more information, please see here.
Sep 10, 2020CO2 vs. Fiber Laser Technology Which is right for you 2020 Guide September 10, 2020 Pmitra Pfannerstill In the world of laser technology, there are very few outstanding methods of cutting such as CO2 and fiber.Some results are removed in response to a notice of local law requirement. For more information, please see here.CO2 versus Fiber-Choosing the Right LaserOct 29, 2019Other industry observers agree the thickness of the material you want to cut is a major factor in a fiber vs. CO2 decision. In various comparative tests on thin-gauge metals, fiber lasers were definitely faster at 3mm and provided good edge quality. At 4-5mm the cutting speeds were similar.
High laser power, acrylic < 25 mm, wood of medium hardness < 20 mm Better quality of edges during laser cutting than for smaller focal distances 5.0 inch fiber Lens for fiber lasers if materials that are not absolutely plane are to be labeled. The greater focal distance results in a greater tolerance during focusing. 7.5 inch CO 2 (for SP1500)Videos of CO2 Vs Fiber Laser Technologywhich Is Right For Watch video on Vimeo1:05CI Lasers In Action17 views Jul 28, 2015Vimeo Cincinnati IncorporatedSee more videos of CO2 Vs Fiber Laser Technologywhich Is Right ForCO2 vs. Fiber Laser Technology - Which is right for you CO2 vs Fiber Laser TechnologyWhich is right for Sep 10, 2020Advantages of Fiber Laser Technology. Much can be said about the areas that fiber performs better than CO2. And there are many. For example, the single biggest issue, and the need for a better technology than CO2, was the need for a more cost-effective method of cutting things. Fiber is definitely a more cost-effective solution! But thats not all.