5 ways to improve your flow of laser-cut parts


Moreover, these arranging steps can be applied to the progression of laser-cuter parts through a fab shop and can loan some lucidity to ways you can improve. In this way, load up and head out on your excursion through laser creation.

1. Shop Layout

Your shop’s design can represent the moment of truth even the most proficient generation plan. The additional time your parts spend in travel or hanging tight for conveyance to the following activity, the less productive you’re being, and the impact can be devastating. In a perfect world, the approaching material would be stacked straightforwardly into or close to the laser and the optional tasks would be found closest to the laser yield. This may appear sound judgment, however in some cases this format isn’t viewed as when gear is introduced at first. At the point when an interwoven way to deal with shop configuration is observed to be wasteful, regularly the whole shop design must be upgraded. Click here!

2. Support

It can’t be focused on enough that if your machinery isn’t kept up or working effectively, the entire procedure can self-destruct in a moment. For certain fabricators, laser upkeep is guaranteed. For other people, laser upkeep is no longer of any concern. Regularly fabricators feel more influenced to keep up uptime than to plan personal time for upkeep. It isn’t until they experience an issue with speed or exactness that they go into investigating mode.

3. Programming

Programming mechanized material and part taking care of is critical to shop efficiencies. With the presentation of fiber lasers and the need to twofold or even triple creation, robotization has turned out to be fundamental. A shop that physically empties a cut sheet can have incomprehensibly unexpected yields in comparison to a shop that utilizes a robotized framework. Upgrading your plant design, keeping up your hardware on a calendar, programming and utilizing robotization, and checking your creation are pivotal to dodging personal time.

4. Mechanization

Innovation progressions constantly give better apparatuses to increment and look after effectiveness. When you have streamlined your shop design and performed support and programming, you are set up to embark to walk toward laser robotization. In the event that your independent modern laser can be worked with 50 percent proficiency (most regularly called bar on), you’re doing great. Most basic shaft on times for a normal blend of materials have floated somewhere in the range of 30 and 40 percent truly. Yet, your laser could be prepared to do more than that. Including an essential burden and empty computerization framework can build your pillar on time to in excess of 80 percent.

5. Generation Monitoring

To make significant enhancements to your laser-cut-part stream, you should comprehend and follow every one of your occupations constantly. Measurements like pillar on schedule, travel delays, process bottlenecks, and even support calendars should be followed with the goal that you can accomplish persistent improvement. For more details, visit: https://www.forbes.com/sites/tjmccue/2012/06/25/laser-systems-industry-7-1-billion-in-2011-year-nothing-to-sneeze-at/#6479c3f37763


Some laser cutting hardware would now be able to be outfitted with a generation checking alternative. A powerful creation observing and emotionally supportive network ought to be intended to give straightforwardness to your machining forms anyplace, whenever. This sort of framework empowers you to get constant access to a broad measure of information through your work area or cell phone.…

The Rise of Fiber Laser Cutter

There are a lot of people that have the need for a laser machine but many do not really know how a fiber laser works. So whether you are looking to just brush up on your knowledge and something new on how a fiber laser work or you are new to this Industry, this article is for you.

What is a Fiber Laser?

This is the type of laser where an optical fiber is being used as the active medium. The optical fiber being used here has been doped in rare elements such as ytterbium, erbium, neodymium, praseodymium, thulium, holmium or dysprosium. You do not need to worry too much about the earth element that has been used, what is of utmost importance is that fiber is being used at the center of this laser cutter. Fiber lasers are different from the other two major types of lasers which are gas lasers (this typically uses CO2 or helium-neon) and crystal lasers (this uses ND: YAG). Fiber laser technology is the newest of these lasers and many are of the opinion that they are the most beneficial of the three types.

How Does a Fiber Laser Work?

As stated earlier, the fiber that is used as the central medium in this laser will have to be doped in rare-earth elements and Erbium is the most used element. The reason for this is that the atom levels of these rare-earth elements have very useful energy levels which allow for a diode laser pump source that is cheaper to be used, yet they still provide a high energy output. For instance, by doping fiber in Erbium, an energy level that is capable of absorbing photons with a wavelength of about 980nm is decayed to a meta-stable equivalent of 1550nm. This means that it is possible to use a laser pump source at 980nm and still achieve a high energy, high quality, and high power laser beam of 1550nm.

The photons that are emitted remains within the fiber core and the Erbium atoms act as the laser medium in the doped fiber. In order to create a cavity in which the photons can be kept entrapped, something referred to as Fiber Bragg Grafting is added. This is simply a section of glass with stripes in it; this is the point at which the refractive index has been altered. A small beam of light is refracted back anytime light passes across a boundary between one refractive index and I he next. The pump laser is targeted at a cladding that sits around the fiber core; the fiber core on its own is too small to have a low quality diode laser targeted at it. The laser is bounced around inside by pumping the laser into the cladding around the core and every time that it passes the core more and more of the pump light is absorbed by the core. Click here.

Benefits of a Fiber Laser

One of the benefits of a fiber laser is that it is extremely stable. Other types of laser cutters are very sensitive to movement and the whole alignment can easily be thrown off should they get banged or knocked. Fiber lasers generates their own laser beams on the inside of the fiber, this means that sensitive options are not needed to have this to work properly. Another benefit of the fiber laser is it delivers an extremely high beam quality. This is because the beam remains contained within the core of the fiber and this helps to keep a straight beam that can be ultra focused. Also, despite the high power output and high intensity fiber lasers work at they are extremely cool and they are highly efficient as well.…

Laser Cutter Types

Before investing in a high quality laser cutter machine it is important to understand its main uses and functions. It is also essential to get the best laser cutter machine according to what you aim at producing. The more you know about the machines the more likely you will to reach the expected results.

Fiber laser cutting machine

The fiber laser cutting machine is the fastest way to cut thin metal sheets. Especially suited for applications that do not require superior surface quality at the cutting edges, it can be used to cut thin to medium materials.

Increased energy efficiency

In laser cutter and its applications, energy makes up 5% to 7% of the total cost per part. The co2 laser cutter machines also include additional components for energy savings. To create the most efficient configuration for you, you should get advice and discuss all options with a specialist. The more you use these machines the more you will save cash, especially if in the long run.

The safety factor

Fiber laser cutting machine uses a wavelength of 1 μ and therefore require the application of very strict safety criteria. Machines must be in a completely isolated environment to reduce the operator’s ability to influence the process and prolong downtime in the event of a problem. On the other hand, since they only use 10 μ, the CO2 lasers allow the operator to approach and restart the cutting process as soon as possible in case of an incident.

C02 laser cutting

The co2 laser cutter is ideal for processes that require a high degree of accuracy. The surfaces produced are superior to those created by fiber laser cutting. And although it does not rival milling, it is much faster and therefore much more profitable. Able to cut materials from the thinnest to the thickest, it is also faster than cutting with fiber in materials with a thickness exceeding a certain value.

Keep your maintenance costs down

The co2 laser cutter is quite complex and thus require maintenance, especially of turbines and mirrors. Given the inherent costs, make sure you choose a machine designed for maximum reliability. For example, some machines require only maintenance work performed at extremely spaced intervals. A manufacturer also guarantees the turbine for 24,000 hours.

Automate to increase productivity

Supported by charging robots, a CO2 laser machine can work continuously without interruption. More efficient and economical than a fiber machine in this type of application, this results in a low

Lower costs per piece

70% of the costs of laser equipment are derived from the initial contract and not from everyday operating expenses. In financial terms, co2 laser cutter offers enormous advantages over fiber-cutting machines in applications involving complex shapes and extremely demanding levels of accuracy and repeatability. This is due to the fact that achieving identical results with a fiber cutting machine would entail costly upgrades, such as adding rigidity and setting up an optimized linear motor, which would ultimately make this option too expensive. Click here for more information: http://www.excellence-electric.com/cost-effective-cutting-using-power-fiber-lasers/

Waterjet Cutting

Laser Cutting Vs Waterjet Cutting

When it comes to laser cutting versus water jet cutting there is a lot of debate. The fact of the matter is that both options have their own level of benefits that they can offer the user. But with that being said, you need to know which one is better for you before you start any job. If you do not you may end up with below average results, or paying more money than you have to. So, in order to avoid this, knowing the benefits of both methods of cutting will save you time in the long run.

As a general rule of thumb, if a laser cutter and a water jet can both do the job you will want to opt for the laser cutting technology. There are really two main benefits of laser cutting technology that makes it so popular.

First and foremost, with laser profiling you will be able to complete the job much faster than with any other method. This is vital in market sectors such as automotive or aerospace where providing laser cut parts has become an integral part of large projects. Typically, components are made available for prototyping or proofing purposes whilst high volume production tools are still being engineered. This means that the final car or plane comes to market much sooner foreshortening the time it takes to recover the development costs.

And to go along with saving time, with cutting by laser the components will also be ready for service right away. There is no need to go through a tedious cleaning process after the cutting is complete. Most quality laser cutter machines such as those made by Trumpf allow the operator to change gas pressures and cutting speeds to ensure that a near perfect finish is achieved.get more updated blog post from http://timesofkabul.com/5869/current-future-industry-trends-waterjet-cutting-machinery-market-2015-2021/

The other major benefit of laser profiling is that it offers precision cuts. Due to an extremely narrow cut width you will never have to worry about not getting what you want. Detailed work can be carried out with accuracy thanks to cuts as small as 0.1 mm. This means that laser profiling is suitable for many varied uses such as for complex furniture or sculptures.

Waterjet CuttingFinally, it is also thought that laser cutter mahines are among the cleanest of all the cutting methods. For the customer this means that they do not run the risk that their parts will be damaged or affected by the waste products associated with water jet cutting.

As you can see there are many benefits that go along with this method of cutting. This is not to say that laser cutting is always the best option, but for most people this is the way to go. If you do not have the equipment necessary to complete a job you can always turn to a laser cutting specialist to lend you some assistance. This way you will have a professional working with you to finalize the job and advise on best practice procedure.

Overall, laser cutting offers many benefits. If you are in need of precision cutting you should look into what this type of technology has to offer.…