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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.Gas lasers most commonly use carbon dioxide as their mediumFiber lasers can work with thicker materials no problem, but generally a CO2 laser will leave a surface finish that is smoother.A CO2 laser is faster at cutting in a straight line, as well as having a quicker piercing time when the cut is first started.The main disadvantages of CO2 lasers are where the advantages of fiber lasers lie. The main reason that A business is built on margins and profits, so these factors mean that their production lines can run faster while keeping costs down at the same time.If you’re interested in discussing the different types of laser processes further and why we believe that fiber lasers are the way to go, then we would be more than happy to Please either give us a call on +44 (0) 1489 779 696, or find our other contact details and location listed $1,350 per year 15kW per hour at 6 hr. Knowing that increased cut part volumes need to be met with additional bending capacity will help prepare the bending area for the increased volume. Figure 1. Absorption comparison between CO2 and Fiber lasers based on wavelength and thickness.In response to the COVID-19 Another cost saving benefit is that fiber lasers are much more efficient when it comes to electricity, meaning lower running costs and a more environmentally friendly machine.
How much faster and how much more cost effective are your parts going to be produced? shift $2,700 per year 15kW per hour at 12 hr. Knowing that materials will need to be presented to the Fiber laser cutter in a timely manner will drive new efficiency in material handling and inventory. Follow date based on 1000w fiber laser source. The operating cost and cutting speeds defined in the comparison chart are calculated from publicly available, and published, information provided to the public by a variety of laser cutting machine manufacturers. A high power Fiber laser cutter is capable of cutting up to 5 times faster than a conventional CO2 laser and utilizes half the operating costs.
If you’ve spent some time reading around our extensive As gas lasers, and CO2 lasers in particular, are the most commonly used lasers on the market, we thought it would be useful to have a The fact that it has no moving parts means that your fiber laser setup is ready to get working from the get-go. Fiber laser cutters do not need any warm-up time – typically about 10 minutes per start-up for a CO2 laser. Alongside this, more power is needed, resulting in higher electrical costs. With this in mind it will be necessary to make a careful analysis of the pertinent data, including application range, operating costs, throughput, cost of ownership and, of course, the investment costs.Whatever the final conclusion, don’t forget about the impact of this investment on your downstream processes: What effect does adding this new laser cutting system have on the flow of operations before and after the parts are cut?Certainly knowing and preparing in advance that front-end office systems will need to keep up with the productivity of the Fiber laser helps fabricators adjust their front-end processes to keep the Fiber laser cutting, rather than waiting for jobs. Firstly, CO2 lasers are sensitive machines that require alignment, so should this get knocked out of place, usually an expert is required to fix it, resulting in long periods of down time when the laser is not being productive.This also means they need more regular servicing, and the costs of this maintenance are higher.